{smcl}
{com}{sf}{ul off}{txt}{.-}
      name:  {res}<unnamed>
       {txt}log:  {res}C:\Users\williamslaro\Documents\Research\Projects\Spatial Methods\Spatial-X\Journal of Politics\Replication\Experiments\Analyze\SEM\Analyze SEM Monte Carlo Experiments.smcl
  {txt}log type:  {res}smcl
 {txt}opened on:  {res} 5 Sep 2019, 10:54:04
{txt}
{com}. 
. tempname sem
{txt}
{com}. postfile `sem' str20 model lambda rec_beta rec_lambda avg_beta avg_lambda /*
> */      rec_teffect rec_teffect_o1 rec_teffect_o2 rec_teffect_o3 rec_deffect rec_deffect_o0 rec_deffect_o1 rec_deffect_o2 rec_deffect_o3 rec_ieffect rec_ieffect_o1 rec_ieffect_o2 rec_ieffect_o3 rec_feffect rec_heffect /*
> */      avg_teffect avg_teffect_o1 avg_teffect_o2 avg_teffect_o3 avg_deffect avg_deffect_o0 avg_deffect_o1 avg_deffect_o2 avg_deffect_o3 avg_ieffect avg_ieffect_o1 avg_ieffect_o2 avg_ieffect_o3 avg_feffect avg_heffect /*
> */      true_teffect true_deffect true_ieffect true_feffect true_heffect true_deffect_o0 true_teffect_o1 true_deffect_o1 true_ieffect_o1 true_teffect_o2 true_deffect_o2 true_ieffect_o2 true_teffect_o3 true_deffect_o3 true_ieffect_o3 /*
> */      using "Experiments\Analyze\SEM\Analyze SEM Monte Carlo Experiments.dta", replace 
{txt}
{com}. 
. 
. *** SEM model
. preserve 
{txt}
{com}.         gen sig_b_x = cond((b_x_sem - 1.96*se_x_sem < b1) & (b_x_sem + 1.96*se_x_sem > b1), 1, 0)
{txt}
{com}.         gen sig_lambda = cond((lambda_sem - 1.96*se_lambda_sem < lambda) & (lambda_sem + 1.96*se_lambda_sem > lambda), 1, 0)
{txt}
{com}.         gen sig_teffect = cond((b_x_sem - 1.96*se_x_sem < true_teffect) & (b_x_sem + 1.96*se_x_sem > true_teffect), 1, 0)
{txt}
{com}.         gen sig_deffect = cond((b_x_sem - 1.96*se_x_sem < true_deffect) & (b_x_sem + 1.96*se_x_sem > true_deffect), 1, 0)
{txt}
{com}.         gen sig_deffect_o0 = cond((deffect_o0_sem - 1.96*deffect_o0_se_sem < true_deffect) & (deffect_o0_sem + 1.96*deffect_o0_se_sem > true_deffect), 1, 0)
{txt}
{com}.         
.         qui foreach n of numlist 1(1)`end' {c -(}


******************************************************
Lambda = -.8; Beta_x = 1
% of cases where SEM Model recovers the true beta_x (reject H_o: beta_x = 1) = 94.4
% of cases where SEM Model recovers the true lambda (reject H_o: lambda = -.8) = 94.9





******************************************************
Lambda = -.6; Beta_x = 1
% of cases where SEM Model recovers the true beta_x (reject H_o: beta_x = 1) = 94.4
% of cases where SEM Model recovers the true lambda (reject H_o: lambda = -.6) = 95.3





******************************************************
Lambda = -.4; Beta_x = 1
% of cases where SEM Model recovers the true beta_x (reject H_o: beta_x = 1) = 94.4
% of cases where SEM Model recovers the true lambda (reject H_o: lambda = -.4) = 92.9





******************************************************
Lambda = -.2; Beta_x = 1
% of cases where SEM Model recovers the true beta_x (reject H_o: beta_x = 1) = 93.4
% of cases where SEM Model recovers the true lambda (reject H_o: lambda = -.2) = 95.2





******************************************************
Lambda = 0; Beta_x = 1
% of cases where SEM Model recovers the true beta_x (reject H_o: beta_x = 1) = 94.8
% of cases where SEM Model recovers the true lambda (reject H_o: lambda = 0) = 94.4





******************************************************
Lambda = .2; Beta_x = 1
% of cases where SEM Model recovers the true beta_x (reject H_o: beta_x = 1) = 93.7
% of cases where SEM Model recovers the true lambda (reject H_o: lambda = .2) = 95





******************************************************
Lambda = .4; Beta_x = 1
% of cases where SEM Model recovers the true beta_x (reject H_o: beta_x = 1) = 95.2
% of cases where SEM Model recovers the true lambda (reject H_o: lambda = .4) = 94.6





******************************************************
Lambda = .6; Beta_x = 1
% of cases where SEM Model recovers the true beta_x (reject H_o: beta_x = 1) = 94.9
% of cases where SEM Model recovers the true lambda (reject H_o: lambda = .6) = 94.5





******************************************************
Lambda = .8; Beta_x = 1
% of cases where SEM Model recovers the true beta_x (reject H_o: beta_x = 1) = 95.1
% of cases where SEM Model recovers the true lambda (reject H_o: lambda = .8) = 93



{txt}
{com}. restore
{txt}
{com}. 
. 
. *** SAR model
. preserve
{txt}
{com}.         gen sig_b = cond((b_x_sar - 1.96*se_x_sar < b1) & (b_x_sar + 1.96*se_x_sar > b1), 1, 0)
{txt}
{com}. 
.         qui foreach n of numlist 1(1)`end' {c -(}


******************************************************
Lambda = -.8; Beta_x = 1
% of cases where SAR Model recovers the average total effect of x (beta_x = 1) = 62.4
% of cases where SAR Model recovers the average first-order total effect of x (beta_x = 1) = 66.9
% of cases where SAR Model recovers the average second-order total effect of x (beta_x = 1) = 98
% of cases where SAR Model recovers the average third-order total effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average direct effect of x (beta_x = 1) = 94.6
% of cases where SAR Model recovers the average zero-order direct effect of x (beta_x = 1) = 94.7
% of cases where SAR Model recovers the average second-order direct effect of x (beta_x = 1) = 98
% of cases where SAR Model recovers the average third-order direct effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average indirect effect of x (beta_x = 1) = 59.9
% of cases where SAR Model recovers the average first-order indirect effect of x (beta_x = 1) = 66.9
% of cases where SAR Model recovers the average second-order indirect effect of x (beta_x = 1) = 98
% of cases where SAR Model recovers the average third-order indirect effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the true higher-order effect of x (beta_x = 1) = 94
% of cases where SAR Model recovers the true feedback effect of x (beta_x = 1) = 98.2
% of cases where SAR Model falsely rejects the true null of no higher-order effects = 6
% of cases where SAR Model falsely rejects the true null of no feedback effects = 1.8





******************************************************
Lambda = -.6; Beta_x = 1
% of cases where SAR Model recovers the average total effect of x (beta_x = 1) = 73.1
% of cases where SAR Model recovers the average first-order total effect of x (beta_x = 1) = 77.6
% of cases where SAR Model recovers the average second-order total effect of x (beta_x = 1) = 99.4
% of cases where SAR Model recovers the average third-order total effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average direct effect of x (beta_x = 1) = 94.3
% of cases where SAR Model recovers the average zero-order direct effect of x (beta_x = 1) = 94.4
% of cases where SAR Model recovers the average second-order direct effect of x (beta_x = 1) = 99.4
% of cases where SAR Model recovers the average third-order direct effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average indirect effect of x (beta_x = 1) = 72.1
% of cases where SAR Model recovers the average first-order indirect effect of x (beta_x = 1) = 77.6
% of cases where SAR Model recovers the average second-order indirect effect of x (beta_x = 1) = 99.4
% of cases where SAR Model recovers the average third-order indirect effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the true higher-order effect of x (beta_x = 1) = 97.9
% of cases where SAR Model recovers the true feedback effect of x (beta_x = 1) = 99.4
% of cases where SAR Model falsely rejects the true null of no higher-order effects = 2.1
% of cases where SAR Model falsely rejects the true null of no feedback effects = .6





******************************************************
Lambda = -.4; Beta_x = 1
% of cases where SAR Model recovers the average total effect of x (beta_x = 1) = 84.4
% of cases where SAR Model recovers the average first-order total effect of x (beta_x = 1) = 87.3
% of cases where SAR Model recovers the average second-order total effect of x (beta_x = 1) = 99.8
% of cases where SAR Model recovers the average third-order total effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average direct effect of x (beta_x = 1) = 94.5
% of cases where SAR Model recovers the average zero-order direct effect of x (beta_x = 1) = 94.3
% of cases where SAR Model recovers the average second-order direct effect of x (beta_x = 1) = 99.8
% of cases where SAR Model recovers the average third-order direct effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average indirect effect of x (beta_x = 1) = 83.8
% of cases where SAR Model recovers the average first-order indirect effect of x (beta_x = 1) = 87.3
% of cases where SAR Model recovers the average second-order indirect effect of x (beta_x = 1) = 99.8
% of cases where SAR Model recovers the average third-order indirect effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the true higher-order effect of x (beta_x = 1) = 98.8
% of cases where SAR Model recovers the true feedback effect of x (beta_x = 1) = 99.8
% of cases where SAR Model falsely rejects the true null of no higher-order effects = 1.2
% of cases where SAR Model falsely rejects the true null of no feedback effects = .2





******************************************************
Lambda = -.2; Beta_x = 1
% of cases where SAR Model recovers the average total effect of x (beta_x = 1) = 90.7
% of cases where SAR Model recovers the average first-order total effect of x (beta_x = 1) = 91.2
% of cases where SAR Model recovers the average second-order total effect of x (beta_x = 1) = 99.8
% of cases where SAR Model recovers the average third-order total effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average direct effect of x (beta_x = 1) = 93.4
% of cases where SAR Model recovers the average zero-order direct effect of x (beta_x = 1) = 93.8
% of cases where SAR Model recovers the average second-order direct effect of x (beta_x = 1) = 99.8
% of cases where SAR Model recovers the average third-order direct effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average indirect effect of x (beta_x = 1) = 90.1
% of cases where SAR Model recovers the average first-order indirect effect of x (beta_x = 1) = 91.2
% of cases where SAR Model recovers the average second-order indirect effect of x (beta_x = 1) = 99.8
% of cases where SAR Model recovers the average third-order indirect effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the true higher-order effect of x (beta_x = 1) = 99.7
% of cases where SAR Model recovers the true feedback effect of x (beta_x = 1) = 99.8
% of cases where SAR Model falsely rejects the true null of no higher-order effects = .3
% of cases where SAR Model falsely rejects the true null of no feedback effects = .2





******************************************************
Lambda = 0; Beta_x = 1
% of cases where SAR Model recovers the average total effect of x (beta_x = 1) = 94.7
% of cases where SAR Model recovers the average first-order total effect of x (beta_x = 1) = 94
% of cases where SAR Model recovers the average second-order total effect of x (beta_x = 1) = 100
% of cases where SAR Model recovers the average third-order total effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average direct effect of x (beta_x = 1) = 95.3
% of cases where SAR Model recovers the average zero-order direct effect of x (beta_x = 1) = 95.6
% of cases where SAR Model recovers the average second-order direct effect of x (beta_x = 1) = 100
% of cases where SAR Model recovers the average third-order direct effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average indirect effect of x (beta_x = 1) = 93.9
% of cases where SAR Model recovers the average first-order indirect effect of x (beta_x = 1) = 94
% of cases where SAR Model recovers the average second-order indirect effect of x (beta_x = 1) = 100
% of cases where SAR Model recovers the average third-order indirect effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the true higher-order effect of x (beta_x = 1) = 100
% of cases where SAR Model recovers the true feedback effect of x (beta_x = 1) = 100
% of cases where SAR Model falsely rejects the true null of no higher-order effects = 0
% of cases where SAR Model falsely rejects the true null of no feedback effects = 0





******************************************************
Lambda = .2; Beta_x = 1
% of cases where SAR Model recovers the average total effect of x (beta_x = 1) = 96.6
% of cases where SAR Model recovers the average first-order total effect of x (beta_x = 1) = 94.3
% of cases where SAR Model recovers the average second-order total effect of x (beta_x = 1) = 99.9
% of cases where SAR Model recovers the average third-order total effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average direct effect of x (beta_x = 1) = 93.8
% of cases where SAR Model recovers the average zero-order direct effect of x (beta_x = 1) = 93.6
% of cases where SAR Model recovers the average second-order direct effect of x (beta_x = 1) = 99.9
% of cases where SAR Model recovers the average third-order direct effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average indirect effect of x (beta_x = 1) = 97.7
% of cases where SAR Model recovers the average first-order indirect effect of x (beta_x = 1) = 94.3
% of cases where SAR Model recovers the average second-order indirect effect of x (beta_x = 1) = 99.9
% of cases where SAR Model recovers the average third-order indirect effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the true higher-order effect of x (beta_x = 1) = 100
% of cases where SAR Model recovers the true feedback effect of x (beta_x = 1) = 100
% of cases where SAR Model falsely rejects the true null of no higher-order effects = 0
% of cases where SAR Model falsely rejects the true null of no feedback effects = 0





******************************************************
Lambda = .4; Beta_x = 1
% of cases where SAR Model recovers the average total effect of x (beta_x = 1) = 96.2
% of cases where SAR Model recovers the average first-order total effect of x (beta_x = 1) = 90
% of cases where SAR Model recovers the average second-order total effect of x (beta_x = 1) = 99.9
% of cases where SAR Model recovers the average third-order total effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average direct effect of x (beta_x = 1) = 95.1
% of cases where SAR Model recovers the average zero-order direct effect of x (beta_x = 1) = 95.3
% of cases where SAR Model recovers the average second-order direct effect of x (beta_x = 1) = 99.9
% of cases where SAR Model recovers the average third-order direct effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average indirect effect of x (beta_x = 1) = 97.3
% of cases where SAR Model recovers the average first-order indirect effect of x (beta_x = 1) = 90
% of cases where SAR Model recovers the average second-order indirect effect of x (beta_x = 1) = 99.9
% of cases where SAR Model recovers the average third-order indirect effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the true higher-order effect of x (beta_x = 1) = 100
% of cases where SAR Model recovers the true feedback effect of x (beta_x = 1) = 100
% of cases where SAR Model falsely rejects the true null of no higher-order effects = 0
% of cases where SAR Model falsely rejects the true null of no feedback effects = 0





******************************************************
Lambda = .6; Beta_x = 1
% of cases where SAR Model recovers the average total effect of x (beta_x = 1) = 94.9
% of cases where SAR Model recovers the average first-order total effect of x (beta_x = 1) = 82.6
% of cases where SAR Model recovers the average second-order total effect of x (beta_x = 1) = 99.6
% of cases where SAR Model recovers the average third-order total effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average direct effect of x (beta_x = 1) = 94.7
% of cases where SAR Model recovers the average zero-order direct effect of x (beta_x = 1) = 94.7
% of cases where SAR Model recovers the average second-order direct effect of x (beta_x = 1) = 99.6
% of cases where SAR Model recovers the average third-order direct effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average indirect effect of x (beta_x = 1) = 96.2
% of cases where SAR Model recovers the average first-order indirect effect of x (beta_x = 1) = 82.6
% of cases where SAR Model recovers the average second-order indirect effect of x (beta_x = 1) = 99.6
% of cases where SAR Model recovers the average third-order indirect effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the true higher-order effect of x (beta_x = 1) = 100
% of cases where SAR Model recovers the true feedback effect of x (beta_x = 1) = 99.9
% of cases where SAR Model falsely rejects the true null of no higher-order effects = 0
% of cases where SAR Model falsely rejects the true null of no feedback effects = .1





******************************************************
Lambda = .8; Beta_x = 1
% of cases where SAR Model recovers the average total effect of x (beta_x = 1) = 91.4
% of cases where SAR Model recovers the average first-order total effect of x (beta_x = 1) = 73.1
% of cases where SAR Model recovers the average second-order total effect of x (beta_x = 1) = 99
% of cases where SAR Model recovers the average third-order total effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average direct effect of x (beta_x = 1) = 93.4
% of cases where SAR Model recovers the average zero-order direct effect of x (beta_x = 1) = 93.5
% of cases where SAR Model recovers the average second-order direct effect of x (beta_x = 1) = 99
% of cases where SAR Model recovers the average third-order direct effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the average indirect effect of x (beta_x = 1) = 93.1
% of cases where SAR Model recovers the average first-order indirect effect of x (beta_x = 1) = 73.1
% of cases where SAR Model recovers the average second-order indirect effect of x (beta_x = 1) = 99
% of cases where SAR Model recovers the average third-order indirect effect of x (beta_x = 1) = 100


% of cases where SAR Model recovers the true higher-order effect of x (beta_x = 1) = 100
% of cases where SAR Model recovers the true feedback effect of x (beta_x = 1) = 99.7
% of cases where SAR Model falsely rejects the true null of no higher-order effects = 0
% of cases where SAR Model falsely rejects the true null of no feedback effects = .3



{txt}
{com}. restore
{txt}
{com}. 
. 
. *** SLX model 1: y = BX + Theta W X
. preserve
{txt}
{com}.         local m = 1
{txt}
{com}. 
.         tempvar sig_b_x sig_deffect_o0
{txt}
{com}.         gen `sig_b_x' = cond((b_x_m`m' - 1.96*se_x_m`m' < b1) & (b_x_m`m' + 1.96*se_x_m`m' > b1), 1, 0)
{txt}
{com}.         gen `sig_deffect_o0' = cond((deffect_o0_m`m' - 1.96*deffect_o0_se_m`m' < true_deffect_o0) & (deffect_o0_m`m' + 1.96*deffect_o0_se_m`m' > true_deffect_o0), 1, 0)
{txt}
{com}.         
.         foreach e in t d i {c -(}
{txt}  2{com}.                 tempvar sig_`e'effect 
{txt}  3{com}.                 gen `sig_`e'effect' = cond((`e'effect_m`m' - 1.96*`e'effect_se_m`m' < true_`e'effect) & (`e'effect_m`m' + 1.96*`e'effect_se_m`m' > true_`e'effect), 1, 0)
{txt}  4{com}. 
.                 foreach o in 1 {c -(}
{txt}  5{com}.                         tempvar sig_`e'effect_o`o'
{txt}  6{com}.                         gen `sig_`e'effect_o`o'' = cond((`e'effect_o`o'_m`m' - 1.96*`e'effect_o`o'_se_m`m' < true_`e'effect_o`o') & (`e'effect_o`o'_m`m' + 1.96*`e'effect_o`o'_se_m`m' > true_`e'effect_o`o'), 1, 0)
{txt}  7{com}.                 {c )-}
{txt}  8{com}.         {c )-}
{txt}
{com}.         
.         qui foreach n of numlist 1(1)`end' {c -(}


******************************************************
Lambda = -.8; Beta_x = 1
% of cases where SLX Model (1 W) recovers the average total effect = 96.1
% of cases where SLX Model (1 W) recovers the average first-order total effect = 94

% of cases where SLX Model (1 W) recovers the total average direct effect = 94.9
% of cases where SLX Model (1 W) recovers the average zero-order direct effect = 94.9

% of cases where SLX Model (1 W) recovers the total average indirect effect = 94
% of cases where SLX Model (1 W) recovers the average first-order indirect effect = 94





******************************************************
Lambda = -.6; Beta_x = 1
% of cases where SLX Model (1 W) recovers the average total effect = 96.6
% of cases where SLX Model (1 W) recovers the average first-order total effect = 95.5

% of cases where SLX Model (1 W) recovers the total average direct effect = 94.8
% of cases where SLX Model (1 W) recovers the average zero-order direct effect = 94.8

% of cases where SLX Model (1 W) recovers the total average indirect effect = 95.5
% of cases where SLX Model (1 W) recovers the average first-order indirect effect = 95.5





******************************************************
Lambda = -.4; Beta_x = 1
% of cases where SLX Model (1 W) recovers the average total effect = 96.5
% of cases where SLX Model (1 W) recovers the average first-order total effect = 95.8

% of cases where SLX Model (1 W) recovers the total average direct effect = 94.9
% of cases where SLX Model (1 W) recovers the average zero-order direct effect = 94.9

% of cases where SLX Model (1 W) recovers the total average indirect effect = 95.8
% of cases where SLX Model (1 W) recovers the average first-order indirect effect = 95.8





******************************************************
Lambda = -.2; Beta_x = 1
% of cases where SLX Model (1 W) recovers the average total effect = 93.9
% of cases where SLX Model (1 W) recovers the average first-order total effect = 93.1

% of cases where SLX Model (1 W) recovers the total average direct effect = 93.8
% of cases where SLX Model (1 W) recovers the average zero-order direct effect = 93.8

% of cases where SLX Model (1 W) recovers the total average indirect effect = 93.1
% of cases where SLX Model (1 W) recovers the average first-order indirect effect = 93.1





******************************************************
Lambda = 0; Beta_x = 1
% of cases where SLX Model (1 W) recovers the average total effect = 95
% of cases where SLX Model (1 W) recovers the average first-order total effect = 95.2

% of cases where SLX Model (1 W) recovers the total average direct effect = 95.5
% of cases where SLX Model (1 W) recovers the average zero-order direct effect = 95.5

% of cases where SLX Model (1 W) recovers the total average indirect effect = 95.2
% of cases where SLX Model (1 W) recovers the average first-order indirect effect = 95.2





******************************************************
Lambda = .2; Beta_x = 1
% of cases where SLX Model (1 W) recovers the average total effect = 94
% of cases where SLX Model (1 W) recovers the average first-order total effect = 94.5

% of cases where SLX Model (1 W) recovers the total average direct effect = 93.5
% of cases where SLX Model (1 W) recovers the average zero-order direct effect = 93.5

% of cases where SLX Model (1 W) recovers the total average indirect effect = 94.5
% of cases where SLX Model (1 W) recovers the average first-order indirect effect = 94.5





******************************************************
Lambda = .4; Beta_x = 1
% of cases where SLX Model (1 W) recovers the average total effect = 93.7
% of cases where SLX Model (1 W) recovers the average first-order total effect = 94.8

% of cases where SLX Model (1 W) recovers the total average direct effect = 95.3
% of cases where SLX Model (1 W) recovers the average zero-order direct effect = 95.3

% of cases where SLX Model (1 W) recovers the total average indirect effect = 94.8
% of cases where SLX Model (1 W) recovers the average first-order indirect effect = 94.8





******************************************************
Lambda = .6; Beta_x = 1
% of cases where SLX Model (1 W) recovers the average total effect = 93.4
% of cases where SLX Model (1 W) recovers the average first-order total effect = 94.3

% of cases where SLX Model (1 W) recovers the total average direct effect = 94.9
% of cases where SLX Model (1 W) recovers the average zero-order direct effect = 94.9

% of cases where SLX Model (1 W) recovers the total average indirect effect = 94.3
% of cases where SLX Model (1 W) recovers the average first-order indirect effect = 94.3





******************************************************
Lambda = .8; Beta_x = 1
% of cases where SLX Model (1 W) recovers the average total effect = 93.5
% of cases where SLX Model (1 W) recovers the average first-order total effect = 95.6

% of cases where SLX Model (1 W) recovers the total average direct effect = 93.9
% of cases where SLX Model (1 W) recovers the average zero-order direct effect = 93.9

% of cases where SLX Model (1 W) recovers the total average indirect effect = 95.6
% of cases where SLX Model (1 W) recovers the average first-order indirect effect = 95.6



{txt}
{com}. restore
{txt}
{com}. 
. 
. *** SLX model 2: y = BX + Theta_1 W X + Theta_2 W^2 X
. preserve
{txt}
{com}.         local m = 2
{txt}
{com}. 
.         tempvar sig_b_x sig_deffect_o0
{txt}
{com}.         gen `sig_b_x' = cond((b_x_m`m' - 1.96*se_x_m`m' < b1) & (b_x_m`m' + 1.96*se_x_m`m' > b1), 1, 0)
{txt}
{com}.         gen `sig_deffect_o0' = cond((deffect_o0_m`m' - 1.96*deffect_o0_se_m`m' < true_deffect_o0) & (deffect_o0_m`m' + 1.96*deffect_o0_se_m`m' > true_deffect_o0), 1, 0)
{txt}
{com}.         
.         foreach v in teffect deffect ieffect feffect heffect {c -(}
{txt}  2{com}.                 tempvar sig_`v' 
{txt}  3{com}.                 gen `sig_`v'' = cond((`v'_m`m' - 1.96*`v'_se_m`m' < true_`v') & (`v'_m`m' + 1.96*`v'_se_m`m' > true_`v'), 1, 0)
{txt}  4{com}.         {c )-}
{txt}
{com}.         
.         foreach e in t d i {c -(}
{txt}  2{com}.                 foreach o of numlist 1(1)2 {c -(}
{txt}  3{com}.                         tempvar sig_`e'effect_o`o'
{txt}  4{com}.                         gen `sig_`e'effect_o`o'' = cond((`e'effect_o`o'_m`m' - 1.96*`e'effect_o`o'_se_m`m' < true_`e'effect_o`o') & (`e'effect_o`o'_m`m' + 1.96*`e'effect_o`o'_se_m`m' > true_`e'effect_o`o'), 1, 0)
{txt}  5{com}.                 {c )-}
{txt}  6{com}.         {c )-}
{txt}
{com}. 
.         qui foreach n of numlist 1(1)`end' {c -(}


******************************************************
Labmda = -.8; Beta_x = 1
% of cases where SLX Model (2 W) recovers the average total effect = 96.1
% of cases where SLX Model (2 W) recovers the average first-order total effect = 94.8
% of cases where SLX Model (2 W) recovers the average second-order total effect = 94.4

% of cases where SLX Model (2 W) recovers the total average direct effect = 95
% of cases where SLX Model (2 W) recovers the average zero-order direct effect = 94.2
% of cases where SLX Model (2 W) recovers the average second-order direct effect = 94.4

% of cases where SLX Model (2 W) recovers the total average indirect effect = 96.2
% of cases where SLX Model (2 W) recovers the average first-order indirect effect = 94.8
% of cases where SLX Model (2 W) recovers the average second-order indirect effect = 94.4
% of cases where SLX Model (2 W) recovers the average feedback effects = 94.4
% of cases where SLX Model (2 W) recovers the average higher-order effects = 94.4





******************************************************
Labmda = -.6; Beta_x = 1
% of cases where SLX Model (2 W) recovers the average total effect = 95.1
% of cases where SLX Model (2 W) recovers the average first-order total effect = 95.5
% of cases where SLX Model (2 W) recovers the average second-order total effect = 94

% of cases where SLX Model (2 W) recovers the total average direct effect = 94.1
% of cases where SLX Model (2 W) recovers the average zero-order direct effect = 95.1
% of cases where SLX Model (2 W) recovers the average second-order direct effect = 94

% of cases where SLX Model (2 W) recovers the total average indirect effect = 95.1
% of cases where SLX Model (2 W) recovers the average first-order indirect effect = 95.5
% of cases where SLX Model (2 W) recovers the average second-order indirect effect = 94
% of cases where SLX Model (2 W) recovers the average feedback effects = 94
% of cases where SLX Model (2 W) recovers the average higher-order effects = 94





******************************************************
Labmda = -.4; Beta_x = 1
% of cases where SLX Model (2 W) recovers the average total effect = 95
% of cases where SLX Model (2 W) recovers the average first-order total effect = 96
% of cases where SLX Model (2 W) recovers the average second-order total effect = 94.9

% of cases where SLX Model (2 W) recovers the total average direct effect = 95
% of cases where SLX Model (2 W) recovers the average zero-order direct effect = 95.2
% of cases where SLX Model (2 W) recovers the average second-order direct effect = 94.9

% of cases where SLX Model (2 W) recovers the total average indirect effect = 95
% of cases where SLX Model (2 W) recovers the average first-order indirect effect = 96
% of cases where SLX Model (2 W) recovers the average second-order indirect effect = 94.9
% of cases where SLX Model (2 W) recovers the average feedback effects = 94.9
% of cases where SLX Model (2 W) recovers the average higher-order effects = 94.9





******************************************************
Labmda = -.2; Beta_x = 1
% of cases where SLX Model (2 W) recovers the average total effect = 94.9
% of cases where SLX Model (2 W) recovers the average first-order total effect = 94
% of cases where SLX Model (2 W) recovers the average second-order total effect = 94.6

% of cases where SLX Model (2 W) recovers the total average direct effect = 93.8
% of cases where SLX Model (2 W) recovers the average zero-order direct effect = 94.2
% of cases where SLX Model (2 W) recovers the average second-order direct effect = 94.6

% of cases where SLX Model (2 W) recovers the total average indirect effect = 94.7
% of cases where SLX Model (2 W) recovers the average first-order indirect effect = 94
% of cases where SLX Model (2 W) recovers the average second-order indirect effect = 94.6
% of cases where SLX Model (2 W) recovers the average feedback effects = 94.6
% of cases where SLX Model (2 W) recovers the average higher-order effects = 94.6





******************************************************
Labmda = 0; Beta_x = 1
% of cases where SLX Model (2 W) recovers the average total effect = 93.5
% of cases where SLX Model (2 W) recovers the average first-order total effect = 94.9
% of cases where SLX Model (2 W) recovers the average second-order total effect = 94

% of cases where SLX Model (2 W) recovers the total average direct effect = 95.4
% of cases where SLX Model (2 W) recovers the average zero-order direct effect = 93.6
% of cases where SLX Model (2 W) recovers the average second-order direct effect = 94

% of cases where SLX Model (2 W) recovers the total average indirect effect = 93.9
% of cases where SLX Model (2 W) recovers the average first-order indirect effect = 94.9
% of cases where SLX Model (2 W) recovers the average second-order indirect effect = 94
% of cases where SLX Model (2 W) recovers the average feedback effects = 94
% of cases where SLX Model (2 W) recovers the average higher-order effects = 94





******************************************************
Labmda = .2; Beta_x = 1
% of cases where SLX Model (2 W) recovers the average total effect = 94.3
% of cases where SLX Model (2 W) recovers the average first-order total effect = 94.9
% of cases where SLX Model (2 W) recovers the average second-order total effect = 94.7

% of cases where SLX Model (2 W) recovers the total average direct effect = 94
% of cases where SLX Model (2 W) recovers the average zero-order direct effect = 94.7
% of cases where SLX Model (2 W) recovers the average second-order direct effect = 94.7

% of cases where SLX Model (2 W) recovers the total average indirect effect = 94.4
% of cases where SLX Model (2 W) recovers the average first-order indirect effect = 94.9
% of cases where SLX Model (2 W) recovers the average second-order indirect effect = 94.7
% of cases where SLX Model (2 W) recovers the average feedback effects = 94.7
% of cases where SLX Model (2 W) recovers the average higher-order effects = 94.7





******************************************************
Labmda = .4; Beta_x = 1
% of cases where SLX Model (2 W) recovers the average total effect = 93.6
% of cases where SLX Model (2 W) recovers the average first-order total effect = 94.8
% of cases where SLX Model (2 W) recovers the average second-order total effect = 93.8

% of cases where SLX Model (2 W) recovers the total average direct effect = 95.2
% of cases where SLX Model (2 W) recovers the average zero-order direct effect = 94.7
% of cases where SLX Model (2 W) recovers the average second-order direct effect = 93.8

% of cases where SLX Model (2 W) recovers the total average indirect effect = 93.6
% of cases where SLX Model (2 W) recovers the average first-order indirect effect = 94.8
% of cases where SLX Model (2 W) recovers the average second-order indirect effect = 93.8
% of cases where SLX Model (2 W) recovers the average feedback effects = 93.8
% of cases where SLX Model (2 W) recovers the average higher-order effects = 93.8





******************************************************
Labmda = .6; Beta_x = 1
% of cases where SLX Model (2 W) recovers the average total effect = 92.6
% of cases where SLX Model (2 W) recovers the average first-order total effect = 93.9
% of cases where SLX Model (2 W) recovers the average second-order total effect = 93.9

% of cases where SLX Model (2 W) recovers the total average direct effect = 95.1
% of cases where SLX Model (2 W) recovers the average zero-order direct effect = 95
% of cases where SLX Model (2 W) recovers the average second-order direct effect = 93.9

% of cases where SLX Model (2 W) recovers the total average indirect effect = 92.2
% of cases where SLX Model (2 W) recovers the average first-order indirect effect = 93.9
% of cases where SLX Model (2 W) recovers the average second-order indirect effect = 93.9
% of cases where SLX Model (2 W) recovers the average feedback effects = 93.9
% of cases where SLX Model (2 W) recovers the average higher-order effects = 93.9





******************************************************
Labmda = .8; Beta_x = 1
% of cases where SLX Model (2 W) recovers the average total effect = 92.8
% of cases where SLX Model (2 W) recovers the average first-order total effect = 95.6
% of cases where SLX Model (2 W) recovers the average second-order total effect = 94.8

% of cases where SLX Model (2 W) recovers the total average direct effect = 94
% of cases where SLX Model (2 W) recovers the average zero-order direct effect = 95.3
% of cases where SLX Model (2 W) recovers the average second-order direct effect = 94.8

% of cases where SLX Model (2 W) recovers the total average indirect effect = 93.3
% of cases where SLX Model (2 W) recovers the average first-order indirect effect = 95.6
% of cases where SLX Model (2 W) recovers the average second-order indirect effect = 94.8
% of cases where SLX Model (2 W) recovers the average feedback effects = 94.8
% of cases where SLX Model (2 W) recovers the average higher-order effects = 94.8



{txt}
{com}. restore
{txt}
{com}. 
. 
. *** SLX model 3: y = BX + Theta_1 W X + Theta_2 W^2 X + Theta_3 W^3 X
. preserve
{txt}
{com}.         local m = 4
{txt}
{com}. 
.         tempvar sig_b_x sig_deffect_o0
{txt}
{com}.         gen `sig_b_x' = cond((b_x_m`m' - 1.96*se_x_m`m' < b1) & (b_x_m`m' + 1.96*se_x_m`m' > b1), 1, 0)
{txt}
{com}.         gen `sig_deffect_o0' = cond((deffect_o0_m`m' - 1.96*deffect_o0_se_m`m' < true_deffect_o0) & (deffect_o0_m`m' + 1.96*deffect_o0_se_m`m' > true_deffect_o0), 1, 0)
{txt}
{com}.         
.         foreach v in teffect deffect ieffect feffect heffect {c -(}
{txt}  2{com}.                 tempvar sig_`v' 
{txt}  3{com}.                 gen `sig_`v'' = cond((`v'_m`m' - 1.96*`v'_se_m`m' < true_`v') & (`v'_m`m' + 1.96*`v'_se_m`m' > true_`v'), 1, 0)
{txt}  4{com}.         {c )-}
{txt}
{com}.         
.         foreach e in t d i {c -(}
{txt}  2{com}.                 foreach o of numlist 1(1)3 {c -(}
{txt}  3{com}.                         tempvar sig_`e'effect_o`o'
{txt}  4{com}.                         gen `sig_`e'effect_o`o'' = cond((`e'effect_o`o'_m`m' - 1.96*`e'effect_o`o'_se_m`m' < true_`e'effect_o`o') & (`e'effect_o`o'_m`m' + 1.96*`e'effect_o`o'_se_m`m' > true_`e'effect_o`o'), 1, 0)
{txt}  5{com}.                 {c )-}
{txt}  6{com}.         {c )-}
{txt}
{com}.         
.         qui foreach n of numlist 1(1)`end' {c -(}


******************************************************
Lambda = -.8; Beta_x = 1
% of cases where SLX Model (3 W) recovers the average total effect = 95.8
% of cases where SLX Model (3 W) recovers the average first-order total effect = 94.7
% of cases where SLX Model (3 W) recovers the average second-order total effect = 94.8
% of cases where SLX Model (3 W) recovers the average third-order total effect = 94.6

% of cases where SLX Model (3 W) recovers the total average direct effect = 94.8
% of cases where SLX Model (3 W) recovers the average zero-order direct effect = 94.2
% of cases where SLX Model (3 W) recovers the average second-order direct effect = 94.8
% of cases where SLX Model (3 W) recovers the average third-order direct effect = 94.6

% of cases where SLX Model (3 W) recovers the total average indirect effect = 95.8
% of cases where SLX Model (3 W) recovers the average first-order indirect effect = 94.7
% of cases where SLX Model (3 W) recovers the average second-order indirect effect = 94.8
% of cases where SLX Model (3 W) recovers the average third-order indirect effect = 94.6
% of cases where SLX Model (3 W) recovers the average feedback effects = 97.4
% of cases where SLX Model (3 W) recovers the average higher-order effects = 95.7





******************************************************
Lambda = -.6; Beta_x = 1
% of cases where SLX Model (3 W) recovers the average total effect = 95.5
% of cases where SLX Model (3 W) recovers the average first-order total effect = 94.8
% of cases where SLX Model (3 W) recovers the average second-order total effect = 94
% of cases where SLX Model (3 W) recovers the average third-order total effect = 93.8

% of cases where SLX Model (3 W) recovers the total average direct effect = 94.2
% of cases where SLX Model (3 W) recovers the average zero-order direct effect = 95
% of cases where SLX Model (3 W) recovers the average second-order direct effect = 94
% of cases where SLX Model (3 W) recovers the average third-order direct effect = 93.8

% of cases where SLX Model (3 W) recovers the total average indirect effect = 95.5
% of cases where SLX Model (3 W) recovers the average first-order indirect effect = 94.8
% of cases where SLX Model (3 W) recovers the average second-order indirect effect = 94
% of cases where SLX Model (3 W) recovers the average third-order indirect effect = 93.8
% of cases where SLX Model (3 W) recovers the average feedback effects = 96.2
% of cases where SLX Model (3 W) recovers the average higher-order effects = 95.3





******************************************************
Lambda = -.4; Beta_x = 1
% of cases where SLX Model (3 W) recovers the average total effect = 95.7
% of cases where SLX Model (3 W) recovers the average first-order total effect = 95.1
% of cases where SLX Model (3 W) recovers the average second-order total effect = 95
% of cases where SLX Model (3 W) recovers the average third-order total effect = 94.8

% of cases where SLX Model (3 W) recovers the total average direct effect = 94.6
% of cases where SLX Model (3 W) recovers the average zero-order direct effect = 95.3
% of cases where SLX Model (3 W) recovers the average second-order direct effect = 95
% of cases where SLX Model (3 W) recovers the average third-order direct effect = 94.8

% of cases where SLX Model (3 W) recovers the total average indirect effect = 95.8
% of cases where SLX Model (3 W) recovers the average first-order indirect effect = 95.1
% of cases where SLX Model (3 W) recovers the average second-order indirect effect = 95
% of cases where SLX Model (3 W) recovers the average third-order indirect effect = 94.8
% of cases where SLX Model (3 W) recovers the average feedback effects = 95.9
% of cases where SLX Model (3 W) recovers the average higher-order effects = 95.6





******************************************************
Lambda = -.2; Beta_x = 1
% of cases where SLX Model (3 W) recovers the average total effect = 94.5
% of cases where SLX Model (3 W) recovers the average first-order total effect = 93.9
% of cases where SLX Model (3 W) recovers the average second-order total effect = 95.2
% of cases where SLX Model (3 W) recovers the average third-order total effect = 93.6

% of cases where SLX Model (3 W) recovers the total average direct effect = 94.3
% of cases where SLX Model (3 W) recovers the average zero-order direct effect = 94.1
% of cases where SLX Model (3 W) recovers the average second-order direct effect = 95.2
% of cases where SLX Model (3 W) recovers the average third-order direct effect = 93.6

% of cases where SLX Model (3 W) recovers the total average indirect effect = 94.5
% of cases where SLX Model (3 W) recovers the average first-order indirect effect = 93.9
% of cases where SLX Model (3 W) recovers the average second-order indirect effect = 95.2
% of cases where SLX Model (3 W) recovers the average third-order indirect effect = 93.6
% of cases where SLX Model (3 W) recovers the average feedback effects = 94.5
% of cases where SLX Model (3 W) recovers the average higher-order effects = 94.5





******************************************************
Lambda = 0; Beta_x = 1
% of cases where SLX Model (3 W) recovers the average total effect = 95.1
% of cases where SLX Model (3 W) recovers the average first-order total effect = 94.9
% of cases where SLX Model (3 W) recovers the average second-order total effect = 94.2
% of cases where SLX Model (3 W) recovers the average third-order total effect = 95

% of cases where SLX Model (3 W) recovers the total average direct effect = 96.1
% of cases where SLX Model (3 W) recovers the average zero-order direct effect = 93.9
% of cases where SLX Model (3 W) recovers the average second-order direct effect = 94.2
% of cases where SLX Model (3 W) recovers the average third-order direct effect = 95

% of cases where SLX Model (3 W) recovers the total average indirect effect = 95.2
% of cases where SLX Model (3 W) recovers the average first-order indirect effect = 94.9
% of cases where SLX Model (3 W) recovers the average second-order indirect effect = 94.2
% of cases where SLX Model (3 W) recovers the average third-order indirect effect = 95
% of cases where SLX Model (3 W) recovers the average feedback effects = 94.3
% of cases where SLX Model (3 W) recovers the average higher-order effects = 95.4





******************************************************
Lambda = .2; Beta_x = 1
% of cases where SLX Model (3 W) recovers the average total effect = 94.5
% of cases where SLX Model (3 W) recovers the average first-order total effect = 93.7
% of cases where SLX Model (3 W) recovers the average second-order total effect = 95.3
% of cases where SLX Model (3 W) recovers the average third-order total effect = 94.6

% of cases where SLX Model (3 W) recovers the total average direct effect = 94.5
% of cases where SLX Model (3 W) recovers the average zero-order direct effect = 94.8
% of cases where SLX Model (3 W) recovers the average second-order direct effect = 95.3
% of cases where SLX Model (3 W) recovers the average third-order direct effect = 94.6

% of cases where SLX Model (3 W) recovers the total average indirect effect = 94.5
% of cases where SLX Model (3 W) recovers the average first-order indirect effect = 93.7
% of cases where SLX Model (3 W) recovers the average second-order indirect effect = 95.3
% of cases where SLX Model (3 W) recovers the average third-order indirect effect = 94.6
% of cases where SLX Model (3 W) recovers the average feedback effects = 94.1
% of cases where SLX Model (3 W) recovers the average higher-order effects = 94





******************************************************
Lambda = .4; Beta_x = 1
% of cases where SLX Model (3 W) recovers the average total effect = 93.8
% of cases where SLX Model (3 W) recovers the average first-order total effect = 93.9
% of cases where SLX Model (3 W) recovers the average second-order total effect = 93.9
% of cases where SLX Model (3 W) recovers the average third-order total effect = 95.3

% of cases where SLX Model (3 W) recovers the total average direct effect = 94.8
% of cases where SLX Model (3 W) recovers the average zero-order direct effect = 94.3
% of cases where SLX Model (3 W) recovers the average second-order direct effect = 93.9
% of cases where SLX Model (3 W) recovers the average third-order direct effect = 95.3

% of cases where SLX Model (3 W) recovers the total average indirect effect = 94
% of cases where SLX Model (3 W) recovers the average first-order indirect effect = 93.9
% of cases where SLX Model (3 W) recovers the average second-order indirect effect = 93.9
% of cases where SLX Model (3 W) recovers the average third-order indirect effect = 95.3
% of cases where SLX Model (3 W) recovers the average feedback effects = 92.5
% of cases where SLX Model (3 W) recovers the average higher-order effects = 94.1





******************************************************
Lambda = .6; Beta_x = 1
% of cases where SLX Model (3 W) recovers the average total effect = 93.2
% of cases where SLX Model (3 W) recovers the average first-order total effect = 95.2
% of cases where SLX Model (3 W) recovers the average second-order total effect = 93.3
% of cases where SLX Model (3 W) recovers the average third-order total effect = 94.3

% of cases where SLX Model (3 W) recovers the total average direct effect = 94.5
% of cases where SLX Model (3 W) recovers the average zero-order direct effect = 94.9
% of cases where SLX Model (3 W) recovers the average second-order direct effect = 93.3
% of cases where SLX Model (3 W) recovers the average third-order direct effect = 94.3

% of cases where SLX Model (3 W) recovers the total average indirect effect = 93.2
% of cases where SLX Model (3 W) recovers the average first-order indirect effect = 95.2
% of cases where SLX Model (3 W) recovers the average second-order indirect effect = 93.3
% of cases where SLX Model (3 W) recovers the average third-order indirect effect = 94.3
% of cases where SLX Model (3 W) recovers the average feedback effects = 91.6
% of cases where SLX Model (3 W) recovers the average higher-order effects = 93.4





******************************************************
Lambda = .8; Beta_x = 1
% of cases where SLX Model (3 W) recovers the average total effect = 93.2
% of cases where SLX Model (3 W) recovers the average first-order total effect = 94.3
% of cases where SLX Model (3 W) recovers the average second-order total effect = 94.3
% of cases where SLX Model (3 W) recovers the average third-order total effect = 94.4

% of cases where SLX Model (3 W) recovers the total average direct effect = 95.2
% of cases where SLX Model (3 W) recovers the average zero-order direct effect = 95.4
% of cases where SLX Model (3 W) recovers the average second-order direct effect = 94.3
% of cases where SLX Model (3 W) recovers the average third-order direct effect = 94.4

% of cases where SLX Model (3 W) recovers the total average indirect effect = 93.4
% of cases where SLX Model (3 W) recovers the average first-order indirect effect = 94.3
% of cases where SLX Model (3 W) recovers the average second-order indirect effect = 94.3
% of cases where SLX Model (3 W) recovers the average third-order indirect effect = 94.4
% of cases where SLX Model (3 W) recovers the average feedback effects = 91.3
% of cases where SLX Model (3 W) recovers the average higher-order effects = 93.3



{txt}
{com}. restore
{txt}
{com}. 
. 
. postclose `sem'
{txt}
{com}. 
. *************************************************************************
. ************************* Analyze ***************************************
. *************************************************************************
. use "Experiments\Analyze\SEM\Analyze SEM Monte Carlo Experiments.dta", clear
{txt}
{com}. 
. ***************************** True Effects (SEM) *************************
. list true_teffect - true_heffect if model == "SEM"
{txt}
     {c TLC}{hline 10}{c -}{hline 10}{c -}{hline 10}{c -}{hline 10}{c -}{hline 10}{c TRC}
     {c |} {res}true_t~t   true_d~t   true_i~t   true_f~t   true_h~t {txt}{c |}
     {c LT}{hline 10}{c -}{hline 10}{c -}{hline 10}{c -}{hline 10}{c -}{hline 10}{c RT}
  1. {c |} {res}       1          1          0          0          0 {txt}{c |}
  2. {c |} {res}       1          1          0          0          0 {txt}{c |}
  3. {c |} {res}       1          1          0          0          0 {txt}{c |}
  4. {c |} {res}       1          1          0          0          0 {txt}{c |}
  5. {c |} {res}       1          1          0          0          0 {txt}{c |}
     {c LT}{hline 10}{c -}{hline 10}{c -}{hline 10}{c -}{hline 10}{c -}{hline 10}{c RT}
  6. {c |} {res}       1          1          0          0          0 {txt}{c |}
  7. {c |} {res}       1          1          0          0          0 {txt}{c |}
  8. {c |} {res}       1          1          0          0          0 {txt}{c |}
  9. {c |} {res}       1          1          0          0          0 {txt}{c |}
     {c BLC}{hline 10}{c -}{hline 10}{c -}{hline 10}{c -}{hline 10}{c -}{hline 10}{c BRC}

{com}. 
. ***************************** Recovery Rates *****************************
. *** Recovery rates of SAR: y = XB + pWy
. list lambda rec_teffect - rec_heffect if model == "SAR"

     {txt}{c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 10. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.8 {txt}{c |} {res}    62.4 {txt}{c |} {res}    66.9 {txt}{c |} {res}      98 {txt}{c |} {res}     100 {txt}{c |} {res}    94.6 {txt}{c |} {res}    94.7 {txt}{c |} {res}       0 {txt}{c |} {res}      98 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}     100  {txt}{c |}  {res}    59.9   {txt}{c |}  {res}    66.9   {txt}{c |}  {res}      98   {txt}{c |}  {res}     100   {txt}{c |}  {res}    98.2   {txt}{c |}  {res}      94   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 11. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.6 {txt}{c |} {res}    73.1 {txt}{c |} {res}    77.6 {txt}{c |} {res}    99.4 {txt}{c |} {res}     100 {txt}{c |} {res}    94.3 {txt}{c |} {res}    94.4 {txt}{c |} {res}       0 {txt}{c |} {res}    99.4 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}     100  {txt}{c |}  {res}    72.1   {txt}{c |}  {res}    77.6   {txt}{c |}  {res}    99.4   {txt}{c |}  {res}     100   {txt}{c |}  {res}    99.4   {txt}{c |}  {res}    97.9   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 12. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.4 {txt}{c |} {res}    84.4 {txt}{c |} {res}    87.3 {txt}{c |} {res}    99.8 {txt}{c |} {res}     100 {txt}{c |} {res}    94.5 {txt}{c |} {res}    94.3 {txt}{c |} {res}       0 {txt}{c |} {res}    99.8 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}     100  {txt}{c |}  {res}    83.8   {txt}{c |}  {res}    87.3   {txt}{c |}  {res}    99.8   {txt}{c |}  {res}     100   {txt}{c |}  {res}    99.8   {txt}{c |}  {res}    98.8   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 13. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.2 {txt}{c |} {res}    90.7 {txt}{c |} {res}    91.2 {txt}{c |} {res}    99.8 {txt}{c |} {res}     100 {txt}{c |} {res}    93.4 {txt}{c |} {res}    93.8 {txt}{c |} {res}       0 {txt}{c |} {res}    99.8 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}     100  {txt}{c |}  {res}    90.1   {txt}{c |}  {res}    91.2   {txt}{c |}  {res}    99.8   {txt}{c |}  {res}     100   {txt}{c |}  {res}    99.8   {txt}{c |}  {res}    99.7   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 14. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}     0 {txt}{c |} {res}    94.7 {txt}{c |} {res}      94 {txt}{c |} {res}     100 {txt}{c |} {res}     100 {txt}{c |} {res}    95.3 {txt}{c |} {res}    95.6 {txt}{c |} {res}       0 {txt}{c |} {res}     100 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}     100  {txt}{c |}  {res}    93.9   {txt}{c |}  {res}      94   {txt}{c |}  {res}     100   {txt}{c |}  {res}     100   {txt}{c |}  {res}     100   {txt}{c |}  {res}     100   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 15. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .2 {txt}{c |} {res}    96.6 {txt}{c |} {res}    94.3 {txt}{c |} {res}    99.9 {txt}{c |} {res}     100 {txt}{c |} {res}    93.8 {txt}{c |} {res}    93.6 {txt}{c |} {res}       0 {txt}{c |} {res}    99.9 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}     100  {txt}{c |}  {res}    97.7   {txt}{c |}  {res}    94.3   {txt}{c |}  {res}    99.9   {txt}{c |}  {res}     100   {txt}{c |}  {res}     100   {txt}{c |}  {res}     100   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 16. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .4 {txt}{c |} {res}    96.2 {txt}{c |} {res}      90 {txt}{c |} {res}    99.9 {txt}{c |} {res}     100 {txt}{c |} {res}    95.1 {txt}{c |} {res}    95.3 {txt}{c |} {res}       0 {txt}{c |} {res}    99.9 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}     100  {txt}{c |}  {res}    97.3   {txt}{c |}  {res}      90   {txt}{c |}  {res}    99.9   {txt}{c |}  {res}     100   {txt}{c |}  {res}     100   {txt}{c |}  {res}     100   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 17. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .6 {txt}{c |} {res}    94.9 {txt}{c |} {res}    82.6 {txt}{c |} {res}    99.6 {txt}{c |} {res}     100 {txt}{c |} {res}    94.7 {txt}{c |} {res}    94.7 {txt}{c |} {res}       0 {txt}{c |} {res}    99.6 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}     100  {txt}{c |}  {res}    96.2   {txt}{c |}  {res}    82.6   {txt}{c |}  {res}    99.6   {txt}{c |}  {res}     100   {txt}{c |}  {res}    99.9   {txt}{c |}  {res}     100   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 18. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .8 {txt}{c |} {res}    91.4 {txt}{c |} {res}    73.1 {txt}{c |} {res}      99 {txt}{c |} {res}     100 {txt}{c |} {res}    93.4 {txt}{c |} {res}    93.5 {txt}{c |} {res}       0 {txt}{c |} {res}      99 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}     100  {txt}{c |}  {res}    93.1   {txt}{c |}  {res}    73.1   {txt}{c |}  {res}      99   {txt}{c |}  {res}     100   {txt}{c |}  {res}    99.7   {txt}{c |}  {res}     100   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

{com}. 
. *** Recovery rates of SLX 1: y = XB + Theta W X
. list lambda rec_teffect - rec_heffect if model == "SLX1"

     {txt}{c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 19. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.8 {txt}{c |} {res}    96.1 {txt}{c |} {res}      94 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}    94.9 {txt}{c |} {res}    94.9 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}      94   {txt}{c |}  {res}      94   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 20. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.6 {txt}{c |} {res}    96.6 {txt}{c |} {res}    95.5 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}    94.8 {txt}{c |} {res}    94.8 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    95.5   {txt}{c |}  {res}    95.5   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 21. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.4 {txt}{c |} {res}    96.5 {txt}{c |} {res}    95.8 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}    94.9 {txt}{c |} {res}    94.9 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    95.8   {txt}{c |}  {res}    95.8   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 22. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.2 {txt}{c |} {res}    93.9 {txt}{c |} {res}    93.1 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}    93.8 {txt}{c |} {res}    93.8 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    93.1   {txt}{c |}  {res}    93.1   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 23. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}     0 {txt}{c |} {res}      95 {txt}{c |} {res}    95.2 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}    95.5 {txt}{c |} {res}    95.5 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    95.2   {txt}{c |}  {res}    95.2   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 24. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .2 {txt}{c |} {res}      94 {txt}{c |} {res}    94.5 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}    93.5 {txt}{c |} {res}    93.5 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    94.5   {txt}{c |}  {res}    94.5   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 25. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .4 {txt}{c |} {res}    93.7 {txt}{c |} {res}    94.8 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}    95.3 {txt}{c |} {res}    95.3 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    94.8   {txt}{c |}  {res}    94.8   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 26. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .6 {txt}{c |} {res}    93.4 {txt}{c |} {res}    94.3 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}    94.9 {txt}{c |} {res}    94.9 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    94.3   {txt}{c |}  {res}    94.3   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 27. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .8 {txt}{c |} {res}    93.5 {txt}{c |} {res}    95.6 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}    93.9 {txt}{c |} {res}    93.9 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    95.6   {txt}{c |}  {res}    95.6   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

{com}. 
. *** Recovery rates of SLX 2: y = XB + Theta_1 W X + Theta_2 W^2 X
. list lambda rec_teffect - rec_heffect if model == "SLX2"

     {txt}{c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 28. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.8 {txt}{c |} {res}    96.1 {txt}{c |} {res}    94.8 {txt}{c |} {res}    94.4 {txt}{c |} {res}       . {txt}{c |} {res}      95 {txt}{c |} {res}    94.2 {txt}{c |} {res}       0 {txt}{c |} {res}    94.4 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    96.2   {txt}{c |}  {res}    94.8   {txt}{c |}  {res}    94.4   {txt}{c |}  {res}       .   {txt}{c |}  {res}    94.4   {txt}{c |}  {res}    94.4   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 29. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.6 {txt}{c |} {res}    95.1 {txt}{c |} {res}    95.5 {txt}{c |} {res}      94 {txt}{c |} {res}       . {txt}{c |} {res}    94.1 {txt}{c |} {res}    95.1 {txt}{c |} {res}       0 {txt}{c |} {res}      94 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    95.1   {txt}{c |}  {res}    95.5   {txt}{c |}  {res}      94   {txt}{c |}  {res}       .   {txt}{c |}  {res}      94   {txt}{c |}  {res}      94   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 30. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.4 {txt}{c |} {res}      95 {txt}{c |} {res}      96 {txt}{c |} {res}    94.9 {txt}{c |} {res}       . {txt}{c |} {res}      95 {txt}{c |} {res}    95.2 {txt}{c |} {res}       0 {txt}{c |} {res}    94.9 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}      95   {txt}{c |}  {res}      96   {txt}{c |}  {res}    94.9   {txt}{c |}  {res}       .   {txt}{c |}  {res}    94.9   {txt}{c |}  {res}    94.9   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 31. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.2 {txt}{c |} {res}    94.9 {txt}{c |} {res}      94 {txt}{c |} {res}    94.6 {txt}{c |} {res}       . {txt}{c |} {res}    93.8 {txt}{c |} {res}    94.2 {txt}{c |} {res}       0 {txt}{c |} {res}    94.6 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    94.7   {txt}{c |}  {res}      94   {txt}{c |}  {res}    94.6   {txt}{c |}  {res}       .   {txt}{c |}  {res}    94.6   {txt}{c |}  {res}    94.6   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 32. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}     0 {txt}{c |} {res}    93.5 {txt}{c |} {res}    94.9 {txt}{c |} {res}      94 {txt}{c |} {res}       . {txt}{c |} {res}    95.4 {txt}{c |} {res}    93.6 {txt}{c |} {res}       0 {txt}{c |} {res}      94 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    93.9   {txt}{c |}  {res}    94.9   {txt}{c |}  {res}      94   {txt}{c |}  {res}       .   {txt}{c |}  {res}      94   {txt}{c |}  {res}      94   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 33. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .2 {txt}{c |} {res}    94.3 {txt}{c |} {res}    94.9 {txt}{c |} {res}    94.7 {txt}{c |} {res}       . {txt}{c |} {res}      94 {txt}{c |} {res}    94.7 {txt}{c |} {res}       0 {txt}{c |} {res}    94.7 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    94.4   {txt}{c |}  {res}    94.9   {txt}{c |}  {res}    94.7   {txt}{c |}  {res}       .   {txt}{c |}  {res}    94.7   {txt}{c |}  {res}    94.7   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 34. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .4 {txt}{c |} {res}    93.6 {txt}{c |} {res}    94.8 {txt}{c |} {res}    93.8 {txt}{c |} {res}       . {txt}{c |} {res}    95.2 {txt}{c |} {res}    94.7 {txt}{c |} {res}       0 {txt}{c |} {res}    93.8 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    93.6   {txt}{c |}  {res}    94.8   {txt}{c |}  {res}    93.8   {txt}{c |}  {res}       .   {txt}{c |}  {res}    93.8   {txt}{c |}  {res}    93.8   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 35. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .6 {txt}{c |} {res}    92.6 {txt}{c |} {res}    93.9 {txt}{c |} {res}    93.9 {txt}{c |} {res}       . {txt}{c |} {res}    95.1 {txt}{c |} {res}      95 {txt}{c |} {res}       0 {txt}{c |} {res}    93.9 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    92.2   {txt}{c |}  {res}    93.9   {txt}{c |}  {res}    93.9   {txt}{c |}  {res}       .   {txt}{c |}  {res}    93.9   {txt}{c |}  {res}    93.9   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 36. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .8 {txt}{c |} {res}    92.8 {txt}{c |} {res}    95.6 {txt}{c |} {res}    94.8 {txt}{c |} {res}       . {txt}{c |} {res}      94 {txt}{c |} {res}    95.3 {txt}{c |} {res}       0 {txt}{c |} {res}    94.8 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}    93.3   {txt}{c |}  {res}    95.6   {txt}{c |}  {res}    94.8   {txt}{c |}  {res}       .   {txt}{c |}  {res}    94.8   {txt}{c |}  {res}    94.8   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

{com}. 
. *** Recovery rates of SLX 3: y = XB + Theta_1 W X + Theta_2 W^2 X + Theta_3 W^3 X
. list lambda rec_teffect - rec_heffect if model == "SLX3"

     {txt}{c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 37. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.8 {txt}{c |} {res}    95.8 {txt}{c |} {res}    94.7 {txt}{c |} {res}    94.8 {txt}{c |} {res}    94.6 {txt}{c |} {res}    94.8 {txt}{c |} {res}    94.2 {txt}{c |} {res}       0 {txt}{c |} {res}    94.8 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}    94.6  {txt}{c |}  {res}    95.8   {txt}{c |}  {res}    94.7   {txt}{c |}  {res}    94.8   {txt}{c |}  {res}    94.6   {txt}{c |}  {res}    97.4   {txt}{c |}  {res}    95.7   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 38. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.6 {txt}{c |} {res}    95.5 {txt}{c |} {res}    94.8 {txt}{c |} {res}      94 {txt}{c |} {res}    93.8 {txt}{c |} {res}    94.2 {txt}{c |} {res}      95 {txt}{c |} {res}       0 {txt}{c |} {res}      94 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}    93.8  {txt}{c |}  {res}    95.5   {txt}{c |}  {res}    94.8   {txt}{c |}  {res}      94   {txt}{c |}  {res}    93.8   {txt}{c |}  {res}    96.2   {txt}{c |}  {res}    95.3   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 39. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.4 {txt}{c |} {res}    95.7 {txt}{c |} {res}    95.1 {txt}{c |} {res}      95 {txt}{c |} {res}    94.8 {txt}{c |} {res}    94.6 {txt}{c |} {res}    95.3 {txt}{c |} {res}       0 {txt}{c |} {res}      95 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}    94.8  {txt}{c |}  {res}    95.8   {txt}{c |}  {res}    95.1   {txt}{c |}  {res}      95   {txt}{c |}  {res}    94.8   {txt}{c |}  {res}    95.9   {txt}{c |}  {res}    95.6   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 40. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}   -.2 {txt}{c |} {res}    94.5 {txt}{c |} {res}    93.9 {txt}{c |} {res}    95.2 {txt}{c |} {res}    93.6 {txt}{c |} {res}    94.3 {txt}{c |} {res}    94.1 {txt}{c |} {res}       0 {txt}{c |} {res}    95.2 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}    93.6  {txt}{c |}  {res}    94.5   {txt}{c |}  {res}    93.9   {txt}{c |}  {res}    95.2   {txt}{c |}  {res}    93.6   {txt}{c |}  {res}    94.5   {txt}{c |}  {res}    94.5   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 41. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}     0 {txt}{c |} {res}    95.1 {txt}{c |} {res}    94.9 {txt}{c |} {res}    94.2 {txt}{c |} {res}      95 {txt}{c |} {res}    96.1 {txt}{c |} {res}    93.9 {txt}{c |} {res}       0 {txt}{c |} {res}    94.2 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}      95  {txt}{c |}  {res}    95.2   {txt}{c |}  {res}    94.9   {txt}{c |}  {res}    94.2   {txt}{c |}  {res}      95   {txt}{c |}  {res}    94.3   {txt}{c |}  {res}    95.4   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 42. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .2 {txt}{c |} {res}    94.5 {txt}{c |} {res}    93.7 {txt}{c |} {res}    95.3 {txt}{c |} {res}    94.6 {txt}{c |} {res}    94.5 {txt}{c |} {res}    94.8 {txt}{c |} {res}       0 {txt}{c |} {res}    95.3 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}    94.6  {txt}{c |}  {res}    94.5   {txt}{c |}  {res}    93.7   {txt}{c |}  {res}    95.3   {txt}{c |}  {res}    94.6   {txt}{c |}  {res}    94.1   {txt}{c |}  {res}      94   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 43. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .4 {txt}{c |} {res}    93.8 {txt}{c |} {res}    93.9 {txt}{c |} {res}    93.9 {txt}{c |} {res}    95.3 {txt}{c |} {res}    94.8 {txt}{c |} {res}    94.3 {txt}{c |} {res}       0 {txt}{c |} {res}    93.9 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}    95.3  {txt}{c |}  {res}      94   {txt}{c |}  {res}    93.9   {txt}{c |}  {res}    93.9   {txt}{c |}  {res}    95.3   {txt}{c |}  {res}    92.5   {txt}{c |}  {res}    94.1   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 44. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .6 {txt}{c |} {res}    93.2 {txt}{c |} {res}    95.2 {txt}{c |} {res}    93.3 {txt}{c |} {res}    94.3 {txt}{c |} {res}    94.5 {txt}{c |} {res}    94.9 {txt}{c |} {res}       0 {txt}{c |} {res}    93.3 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}    94.3  {txt}{c |}  {res}    93.2   {txt}{c |}  {res}    95.2   {txt}{c |}  {res}    93.3   {txt}{c |}  {res}    94.3   {txt}{c |}  {res}    91.6   {txt}{c |}  {res}    93.4   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 45. {c |} lambda {c |} rec_te~t {c |} rec_te~1 {c |} rec_te~2 {c |} rec_te~3 {c |} rec_de~t {c |} rec_de~0 {c |} rec_de~1 {c |} rec_de~2 {c |}
     {c |} {res}    .8 {txt}{c |} {res}    93.2 {txt}{c |} {res}    94.3 {txt}{c |} {res}    94.3 {txt}{c |} {res}    94.4 {txt}{c |} {res}    95.2 {txt}{c |} {res}    95.4 {txt}{c |} {res}       0 {txt}{c |} {res}    94.3 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  rec_de~3  {c |}  rec_ie~t   {c |}  rec_ie~1   {c |}  rec_ie~2   {c |}  rec_ie~3   {c |}  rec_fe~t   {c |}  rec_he~t   {c |}
     {c |}  {res}    94.4  {txt}{c |}  {res}    93.4   {txt}{c |}  {res}    94.3   {txt}{c |}  {res}    94.3   {txt}{c |}  {res}    94.4   {txt}{c |}  {res}    91.3   {txt}{c |}  {res}    93.3   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

{com}. 
. ***************************** Average Effects *****************************
. 
. *** Average effects of SAR: y = XB + pWy
. list lambda avg_teffect - avg_heffect if model == "SAR"

     {txt}{c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 10. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_tef~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}   -.8 {txt}{c |} {res}.8769369 {txt}{c |} {res} -.159579 {txt}{c |} {res}.0481816 {txt}{c |} {res} -.015001 {txt}{c |} {res} 1.00151 {txt}{c |} {res}.9992148 {txt}{c |} {res}       0 {txt}{c |} {res}.0023165 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 11}{c BT}{c TT}{hline 9}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_def~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ie~2   {c |}  avg_ief~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}-.0000637  {txt}{c |}  {res}-.1245727  {txt}{c |}  {res} -.159579  {txt}{c |}  {res}.0458651   {txt}{c |}  {res}-.0149372   {txt}{c |}  {res}.0022949   {txt}{c |}  {res}.0373012   {txt}{c |}
     {c BLC}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 11. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_tef~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}   -.6 {txt}{c |} {res}.9006436 {txt}{c |} {res}-.1267132 {txt}{c |} {res}.0375411 {txt}{c |} {res}-.0101526 {txt}{c |} {res}.9989986 {txt}{c |} {res}.9972091 {txt}{c |} {res}       0 {txt}{c |} {res}.0018049 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 11}{c BT}{c TT}{hline 9}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_def~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ie~2   {c |}  avg_ief~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}-.0000431  {txt}{c |}  {res} -.098355  {txt}{c |}  {res}-.1267132  {txt}{c |}  {res}.0357362   {txt}{c |}  {res}-.0101095   {txt}{c |}  {res}.0017894   {txt}{c |}  {res}.0301476   {txt}{c |}
     {c BLC}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 12. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_tef~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}   -.4 {txt}{c |} {res}.9343091 {txt}{c |} {res}-.0885155 {txt}{c |} {res}.0289327 {txt}{c |} {res}-.0064054 {txt}{c |} {res}.9997574 {txt}{c |} {res}.9983748 {txt}{c |} {res}       0 {txt}{c |} {res}.0013911 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 11}{c BT}{c TT}{hline 9}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_def~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ie~2   {c |}  avg_ief~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}-.0000272  {txt}{c |}  {res}-.0654483  {txt}{c |}  {res}-.0885155  {txt}{c |}  {res}.0275417   {txt}{c |}  {res}-.0063782   {txt}{c |}  {res}.0013826   {txt}{c |}  {res}.0244498   {txt}{c |}
     {c BLC}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 13. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_tef~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}   -.2 {txt}{c |} {res}.9756451 {txt}{c |} {res}-.0462137 {txt}{c |} {res} .024283 {txt}{c |} {res}-.0031085 {txt}{c |} {res}1.000218 {txt}{c |} {res}.9990486 {txt}{c |} {res}       0 {txt}{c |} {res}.0011675 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 11}{c BT}{c TT}{hline 9}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_def~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ie~2   {c |}  avg_ief~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}-.0000132  {txt}{c |}  {res}-.0245726  {txt}{c |}  {res}-.0462137  {txt}{c |}  {res}.0231155   {txt}{c |}  {res}-.0030953   {txt}{c |}  {res}.0011691   {txt}{c |}  {res}.0228103   {txt}{c |}
     {c BLC}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 14. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_tef~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}     0 {txt}{c |} {res}1.010055 {txt}{c |} {res}-.0129668 {txt}{c |} {res}.0221294 {txt}{c |} {res}-.0008226 {txt}{c |} {res} 1.00122 {txt}{c |} {res}1.000146 {txt}{c |} {res}       0 {txt}{c |} {res} .001064 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 11}{c BT}{c TT}{hline 9}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_def~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ie~2   {c |}  avg_ief~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}-3.50e-06  {txt}{c |}  {res} .0088352  {txt}{c |}  {res}-.0129668  {txt}{c |}  {res}.0210654   {txt}{c |}  {res}-.0008191   {txt}{c |}  {res}.0010738   {txt}{c |}  {res}.0228758   {txt}{c |}
     {c BLC}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 15. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_tef~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}    .2 {txt}{c |} {res}1.049642 {txt}{c |} {res} .0245813 {txt}{c |} {res}.0219306 {txt}{c |} {res} .0017841 {txt}{c |} {res}1.000503 {txt}{c |} {res}.9994265 {txt}{c |} {res}       0 {txt}{c |} {res}.0010544 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 11}{c BT}{c TT}{hline 9}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_def~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ie~2   {c |}  avg_ief~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res} 7.58e-06  {txt}{c |}  {res} .0491389  {txt}{c |}  {res} .0245813  {txt}{c |}  {res}.0208762   {txt}{c |}  {res} .0017765   {txt}{c |}  {res} .001077   {txt}{c |}  {res}.0256346   {txt}{c |}
     {c BLC}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 16. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_tef~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}    .4 {txt}{c |} {res}1.098941 {txt}{c |} {res} .0657106 {txt}{c |} {res}.0259322 {txt}{c |} {res} .0045489 {txt}{c |} {res}1.001136 {txt}{c |} {res}.9998479 {txt}{c |} {res}       0 {txt}{c |} {res}.0012468 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 11}{c BT}{c TT}{hline 9}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_def~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ie~2   {c |}  avg_ief~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res} .0000193  {txt}{c |}  {res}  .097805  {txt}{c |}  {res} .0657106  {txt}{c |}  {res}.0246854   {txt}{c |}  {res} .0045296   {txt}{c |}  {res}.0012879   {txt}{c |}  {res}.0333823   {txt}{c |}
     {c BLC}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 17. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_tef~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}    .6 {txt}{c |} {res}1.144969 {txt}{c |} {res}  .100585 {txt}{c |} {res}.0321212 {txt}{c |} {res} .0076056 {txt}{c |} {res}1.001741 {txt}{c |} {res}1.000132 {txt}{c |} {res}       0 {txt}{c |} {res}.0015443 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 11}{c BT}{c TT}{hline 9}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_def~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ie~2   {c |}  avg_ief~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res} .0000323  {txt}{c |}  {res} .1432271  {txt}{c |}  {res}  .100585  {txt}{c |}  {res}.0305768   {txt}{c |}  {res} .0075733   {txt}{c |}  {res}.0016098   {txt}{c |}  {res}.0442519   {txt}{c |}
     {c BLC}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 18. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_tef~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}    .8 {txt}{c |} {res}1.199293 {txt}{c |} {res} .1402846 {txt}{c |} {res}.0406322 {txt}{c |} {res} .0115832 {txt}{c |} {res}1.001875 {txt}{c |} {res}.9998216 {txt}{c |} {res}       0 {txt}{c |} {res}.0019535 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 3}{c BT}{hline 9}{c TT}{c BT}{hline 11}{c BT}{c TT}{hline 9}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_def~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ie~2   {c |}  avg_ief~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res} .0000492  {txt}{c |}  {res} .1974189  {txt}{c |}  {res} .1402846  {txt}{c |}  {res}.0386787   {txt}{c |}  {res}  .011534   {txt}{c |}  {res} .002053   {txt}{c |}  {res}.0591873   {txt}{c |}
     {c BLC}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

{com}. 
. *** Average effects of SLX 1: y = XB + Theta W X
. list lambda avg_teffect - avg_heffect if model == "SLX1"

     {txt}{c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 19. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}   -.8 {txt}{c |} {res}1.001491 {txt}{c |} {res} .0008237 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}1.000667 {txt}{c |} {res}1.000667 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1   {c |}  avg_ie~2   {c |}  avg_ie~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res} .0008237  {txt}{c |}  {res} .0008237   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 20. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}   -.6 {txt}{c |} {res}.9960131 {txt}{c |} {res}-.0022978 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}.9983109 {txt}{c |} {res}.9983109 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1   {c |}  avg_ie~2   {c |}  avg_ie~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}-.0022978  {txt}{c |}  {res}-.0022978   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 21. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}   -.4 {txt}{c |} {res}1.000496 {txt}{c |} {res} .0013004 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}.9991953 {txt}{c |} {res}.9991953 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1   {c |}  avg_ie~2   {c |}  avg_ie~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res} .0013004  {txt}{c |}  {res} .0013004   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 22. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}   -.2 {txt}{c |} {res} 1.00186 {txt}{c |} {res} .0020964 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}.9997641 {txt}{c |} {res}.9997641 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1   {c |}  avg_ie~2   {c |}  avg_ie~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res} .0020964  {txt}{c |}  {res} .0020964   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 23. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}     0 {txt}{c |} {res} .998584 {txt}{c |} {res}-.0020948 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}1.000679 {txt}{c |} {res}1.000679 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1   {c |}  avg_ie~2   {c |}  avg_ie~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}-.0020948  {txt}{c |}  {res}-.0020948   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 24. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}    .2 {txt}{c |} {res}.9956749 {txt}{c |} {res}-.0040051 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}  .99968 {txt}{c |} {res}  .99968 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1   {c |}  avg_ie~2   {c |}  avg_ie~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}-.0040051  {txt}{c |}  {res}-.0040051   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 25. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}    .4 {txt}{c |} {res}1.001457 {txt}{c |} {res} .0014503 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}1.000007 {txt}{c |} {res}1.000007 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1   {c |}  avg_ie~2   {c |}  avg_ie~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res} .0014503  {txt}{c |}  {res} .0014503   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 26. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}    .6 {txt}{c |} {res}.9994872 {txt}{c |} {res}-.0006173 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}1.000104 {txt}{c |} {res}1.000104 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1   {c |}  avg_ie~2   {c |}  avg_ie~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}-.0006173  {txt}{c |}  {res}-.0006173   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TRC}
 27. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_te~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_de~2 {c |}
     {c |} {res}    .8 {txt}{c |} {res}1.002499 {txt}{c |} {res} .0028197 {txt}{c |} {res}       . {txt}{c |} {res}       . {txt}{c |} {res}.9996788 {txt}{c |} {res}.9996788 {txt}{c |} {res}       0 {txt}{c |} {res}       . {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 9}{c TT}{c BT}{hline 10}{c BT}{hline 1}{c TT}{hline 8}{c BT}{hline 4}{c TT}{hline 5}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 10}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1   {c |}  avg_ie~2   {c |}  avg_ie~3   {c |}  avg_fe~t   {c |}  avg_he~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res} .0028197  {txt}{c |}  {res} .0028197   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}  {res}       .   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 13}{c BRC}

{com}. 
. *** Average effects of SLX 2: y = XB + Theta_1 W X + Theta_2 W^2 X
. list lambda avg_teffect - avg_heffect if model == "SLX2"

     {txt}{c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 11}{c TRC}
 28. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_tef~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_def~2 {c |}
     {c |} {res}   -.8 {txt}{c |} {res}.9806097 {txt}{c |} {res} .0007031 {txt}{c |} {res}-.0215934 {txt}{c |} {res}       . {txt}{c |} {res}1.000462 {txt}{c |} {res}  1.0015 {txt}{c |} {res}       0 {txt}{c |} {res}-.0010382 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 8}{c TT}{hline 2}{c BT}{hline 10}{c BT}{c TT}{hline 9}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 11}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ief~2   {c |}  avg_ie~3   {c |}  avg_fef~t   {c |}  avg_hef~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res} -.019852  {txt}{c |}  {res} .0007031  {txt}{c |}  {res}-.0205552   {txt}{c |}  {res}       .   {txt}{c |}  {res}-.0010382   {txt}{c |}  {res}-.0215934   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 14}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 11}{c TRC}
 29. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_tef~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_def~2 {c |}
     {c |} {res}   -.6 {txt}{c |} {res}.9815409 {txt}{c |} {res} -.002872 {txt}{c |} {res}-.0145749 {txt}{c |} {res}       . {txt}{c |} {res} .998287 {txt}{c |} {res}.9989878 {txt}{c |} {res}       0 {txt}{c |} {res}-.0007007 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 8}{c TT}{hline 2}{c BT}{hline 10}{c BT}{c TT}{hline 9}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 11}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ief~2   {c |}  avg_ie~3   {c |}  avg_fef~t   {c |}  avg_hef~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}-.0167462  {txt}{c |}  {res} -.002872  {txt}{c |}  {res}-.0138742   {txt}{c |}  {res}       .   {txt}{c |}  {res}-.0007007   {txt}{c |}  {res}-.0145749   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 14}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 11}{c TRC}
 30. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_tef~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_def~2 {c |}
     {c |} {res}   -.4 {txt}{c |} {res}.9965362 {txt}{c |} {res} .0015272 {txt}{c |} {res}-.0044081 {txt}{c |} {res}       . {txt}{c |} {res}.9992052 {txt}{c |} {res}.9994172 {txt}{c |} {res}       0 {txt}{c |} {res}-.0002119 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 8}{c TT}{hline 2}{c BT}{hline 10}{c BT}{c TT}{hline 9}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 11}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ief~2   {c |}  avg_ie~3   {c |}  avg_fef~t   {c |}  avg_hef~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res} -.002669  {txt}{c |}  {res} .0015272  {txt}{c |}  {res}-.0041962   {txt}{c |}  {res}       .   {txt}{c |}  {res}-.0002119   {txt}{c |}  {res}-.0044081   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 14}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 11}{c TRC}
 31. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_tef~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_def~2 {c |}
     {c |} {res}   -.2 {txt}{c |} {res} .990687 {txt}{c |} {res} .0024733 {txt}{c |} {res}-.0120341 {txt}{c |} {res}       . {txt}{c |} {res}.9996691 {txt}{c |} {res}1.000248 {txt}{c |} {res}       0 {txt}{c |} {res}-.0005786 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 8}{c TT}{hline 2}{c BT}{hline 10}{c BT}{c TT}{hline 9}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 11}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ief~2   {c |}  avg_ie~3   {c |}  avg_fef~t   {c |}  avg_hef~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}-.0089822  {txt}{c |}  {res} .0024733  {txt}{c |}  {res}-.0114555   {txt}{c |}  {res}       .   {txt}{c |}  {res}-.0005786   {txt}{c |}  {res}-.0120341   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 14}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 11}{c TRC}
 32. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_tef~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_def~2 {c |}
     {c |} {res}     0 {txt}{c |} {res}.9659155 {txt}{c |} {res}-.0030498 {txt}{c |} {res}-.0331554 {txt}{c |} {res}       . {txt}{c |} {res}1.000527 {txt}{c |} {res}1.002121 {txt}{c |} {res}       0 {txt}{c |} {res}-.0015941 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 8}{c TT}{hline 2}{c BT}{hline 10}{c BT}{c TT}{hline 9}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 11}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ief~2   {c |}  avg_ie~3   {c |}  avg_fef~t   {c |}  avg_hef~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res}-.0346111  {txt}{c |}  {res}-.0030498  {txt}{c |}  {res}-.0315613   {txt}{c |}  {res}       .   {txt}{c |}  {res}-.0015941   {txt}{c |}  {res}-.0331554   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 14}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 11}{c TRC}
 33. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_tef~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_def~2 {c |}
     {c |} {res}    .2 {txt}{c |} {res}.9998807 {txt}{c |} {res}-.0042376 {txt}{c |} {res} .0046747 {txt}{c |} {res}       . {txt}{c |} {res}.9996684 {txt}{c |} {res}.9994437 {txt}{c |} {res}       0 {txt}{c |} {res} .0002248 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 8}{c TT}{hline 2}{c BT}{hline 10}{c BT}{c TT}{hline 9}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 11}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ief~2   {c |}  avg_ie~3   {c |}  avg_fef~t   {c |}  avg_hef~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res} .0002123  {txt}{c |}  {res}-.0042376  {txt}{c |}  {res} .0044499   {txt}{c |}  {res}       .   {txt}{c |}  {res} .0002248   {txt}{c |}  {res} .0046747   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 14}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 11}{c TRC}
 34. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_tef~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_def~2 {c |}
     {c |} {res}    .4 {txt}{c |} {res}1.021432 {txt}{c |} {res} .0017402 {txt}{c |} {res}  .020541 {txt}{c |} {res}       . {txt}{c |} {res}1.000138 {txt}{c |} {res}.9991505 {txt}{c |} {res}       0 {txt}{c |} {res} .0009876 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 8}{c TT}{hline 2}{c BT}{hline 10}{c BT}{c TT}{hline 9}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 11}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ief~2   {c |}  avg_ie~3   {c |}  avg_fef~t   {c |}  avg_hef~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res} .0212936  {txt}{c |}  {res} .0017402  {txt}{c |}  {res} .0195534   {txt}{c |}  {res}       .   {txt}{c |}  {res} .0009876   {txt}{c |}  {res}  .020541   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 14}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 11}{c TRC}
 35. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_tef~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_def~2 {c |}
     {c |} {res}    .6 {txt}{c |} {res}1.008096 {txt}{c |} {res}-.0005213 {txt}{c |} {res} .0089886 {txt}{c |} {res}       . {txt}{c |} {res}1.000061 {txt}{c |} {res}.9996291 {txt}{c |} {res}       0 {txt}{c |} {res} .0004322 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 8}{c TT}{hline 2}{c BT}{hline 10}{c BT}{c TT}{hline 9}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 11}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ief~2   {c |}  avg_ie~3   {c |}  avg_fef~t   {c |}  avg_hef~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res} .0080351  {txt}{c |}  {res}-.0005213  {txt}{c |}  {res} .0085564   {txt}{c |}  {res}       .   {txt}{c |}  {res} .0004322   {txt}{c |}  {res} .0089886   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 14}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 10}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 10}{c TT}{hline 11}{c TRC}
 36. {c |} lambda {c |} avg_te~t {c |} avg_tef~1 {c |} avg_tef~2 {c |} avg_te~3 {c |} avg_de~t {c |} avg_de~0 {c |} avg_de~1 {c |} avg_def~2 {c |}
     {c |} {res}    .8 {txt}{c |} {res}.9730679 {txt}{c |} {res} .0025593 {txt}{c |} {res}-.0304051 {txt}{c |} {res}       . {txt}{c |} {res}.9994519 {txt}{c |} {res}1.000914 {txt}{c |} {res}       0 {txt}{c |} {res}-.0014618 {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 6}{c TT}{hline 4}{c BT}{hline 8}{c TT}{hline 2}{c BT}{hline 10}{c BT}{c TT}{hline 9}{c BT}{hline 3}{c TT}{hline 6}{c BT}{hline 7}{c TT}{hline 2}{c BT}{hline 11}{c RT}
     {c |}  avg_de~3  {c |}  avg_ief~t  {c |}  avg_ief~1  {c |}  avg_ief~2   {c |}  avg_ie~3   {c |}  avg_fef~t   {c |}  avg_hef~t   {c |}
     {c |}  {res}       .  {txt}{c |}  {res} -.026384  {txt}{c |}  {res} .0025593  {txt}{c |}  {res}-.0289432   {txt}{c |}  {res}       .   {txt}{c |}  {res}-.0014618   {txt}{c |}  {res}-.0304051   {txt}{c |}
     {c BLC}{hline 12}{c BT}{hline 13}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 13}{c BT}{hline 14}{c BT}{hline 14}{c BRC}

{com}. 
. *** Average effects of SLX 3: y = XB + Theta_1 W X + Theta_2 W^2 X + Theta_3 W^3 X
. list lambda avg_teffect - avg_heffect if model == "SLX3"

     {txt}{c TLC}{hline 8}{c TT}{hline 11}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 11}{c TRC}
 37. {c |} lambda {c |} avg_te~t  {c |} avg_tef~1  {c |} avg_tef~2  {c |} avg_tef~3  {c |} avg_de~t  {c |} avg_de~0  {c |} avg_de~1  {c |}
     {c |} {res}   -.8 {txt}{c |} {res}.8698468  {txt}{c |} {res} .0117776  {txt}{c |} {res}-.0214609  {txt}{c |} {res}-.1219583  {txt}{c |} {res}.9999384  {txt}{c |} {res}1.001488  {txt}{c |} {res}       0  {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 2}{c TT}{hline 8}{c BT}{hline 2}{c TT}{hline 9}{c BT}{hline 1}{c TT}{hline 10}{c BT}{c TT}{hline 11}{c +}{hline 11}{c +}{hline 11}{c +}{hline 11}{c RT}
     {c |} avg_def~2 {c |} avg_def~3 {c |} avg_ief~t {c |} avg_ief~1 {c |} avg_ief~2 {c |} avg_ief~3 {c |} avg_fef~t {c |} avg_hef~t {c |}
     {c |} {res}-.0010318 {txt}{c |} {res}-.0005182 {txt}{c |} {res}-.1300916 {txt}{c |} {res} .0117776 {txt}{c |} {res}-.0204291 {txt}{c |} {res}-.1214401 {txt}{c |} {res}-.0015501 {txt}{c |} {res}-.1434193 {txt}{c |}
     {c BLC}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 11}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 11}{c TRC}
 38. {c |} lambda {c |} avg_te~t  {c |} avg_tef~1  {c |} avg_tef~2  {c |} avg_tef~3  {c |} avg_de~t  {c |} avg_de~0  {c |} avg_de~1  {c |}
     {c |} {res}   -.6 {txt}{c |} {res}1.066227  {txt}{c |} {res}-.0103444  {txt}{c |} {res}-.0152052  {txt}{c |} {res} .0927109  {txt}{c |} {res}.9987282  {txt}{c |} {res}.9990653  {txt}{c |} {res}       0  {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 2}{c TT}{hline 8}{c BT}{hline 2}{c TT}{hline 9}{c BT}{hline 1}{c TT}{hline 10}{c BT}{c TT}{hline 11}{c +}{hline 11}{c +}{hline 11}{c +}{hline 11}{c RT}
     {c |} avg_def~2 {c |} avg_def~3 {c |} avg_ief~t {c |} avg_ief~1 {c |} avg_ief~2 {c |} avg_ief~3 {c |} avg_fef~t {c |} avg_hef~t {c |}
     {c |} {res} -.000731 {txt}{c |} {res}  .000394 {txt}{c |} {res} .0674983 {txt}{c |} {res}-.0103444 {txt}{c |} {res}-.0144741 {txt}{c |} {res} .0923169 {txt}{c |} {res}-.0003371 {txt}{c |} {res} .0775057 {txt}{c |}
     {c BLC}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 11}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 11}{c TRC}
 39. {c |} lambda {c |} avg_te~t  {c |} avg_tef~1  {c |} avg_tef~2  {c |} avg_tef~3  {c |} avg_de~t  {c |} avg_de~0  {c |} avg_de~1  {c |}
     {c |} {res}   -.4 {txt}{c |} {res}.9890974  {txt}{c |} {res} .0024265  {txt}{c |} {res}-.0043083  {txt}{c |} {res}-.0083704  {txt}{c |} {res}.9991068  {txt}{c |} {res}.9993495  {txt}{c |} {res}       0  {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 2}{c TT}{hline 8}{c BT}{hline 2}{c TT}{hline 9}{c BT}{hline 1}{c TT}{hline 10}{c BT}{c TT}{hline 11}{c +}{hline 11}{c +}{hline 11}{c +}{hline 11}{c RT}
     {c |} avg_def~2 {c |} avg_def~3 {c |} avg_ief~t {c |} avg_ief~1 {c |} avg_ief~2 {c |} avg_ief~3 {c |} avg_fef~t {c |} avg_hef~t {c |}
     {c |} {res}-.0002071 {txt}{c |} {res}-.0000356 {txt}{c |} {res}-.0100095 {txt}{c |} {res} .0024265 {txt}{c |} {res}-.0041011 {txt}{c |} {res}-.0083348 {txt}{c |} {res}-.0002427 {txt}{c |} {res}-.0126787 {txt}{c |}
     {c BLC}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 11}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 11}{c TRC}
 40. {c |} lambda {c |} avg_te~t  {c |} avg_tef~1  {c |} avg_tef~2  {c |} avg_tef~3  {c |} avg_de~t  {c |} avg_de~0  {c |} avg_de~1  {c |}
     {c |} {res}   -.2 {txt}{c |} {res}1.041592  {txt}{c |} {res}-.0026241  {txt}{c |} {res}-.0122283  {txt}{c |} {res} .0563001  {txt}{c |} {res}.9997955  {txt}{c |} {res}1.000144  {txt}{c |} {res}       0  {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 2}{c TT}{hline 8}{c BT}{hline 2}{c TT}{hline 9}{c BT}{hline 1}{c TT}{hline 10}{c BT}{c TT}{hline 11}{c +}{hline 11}{c +}{hline 11}{c +}{hline 11}{c RT}
     {c |} avg_def~2 {c |} avg_def~3 {c |} avg_ief~t {c |} avg_ief~1 {c |} avg_ief~2 {c |} avg_ief~3 {c |} avg_fef~t {c |} avg_hef~t {c |}
     {c |} {res}-.0005879 {txt}{c |} {res} .0002392 {txt}{c |} {res} .0417963 {txt}{c |} {res}-.0026241 {txt}{c |} {res}-.0116404 {txt}{c |} {res} .0560608 {txt}{c |} {res}-.0003487 {txt}{c |} {res} .0440717 {txt}{c |}
     {c BLC}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 11}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 11}{c TRC}
 41. {c |} lambda {c |} avg_te~t  {c |} avg_tef~1  {c |} avg_tef~2  {c |} avg_tef~3  {c |} avg_de~t  {c |} avg_de~0  {c |} avg_de~1  {c |}
     {c |} {res}     0 {txt}{c |} {res}.9120502  {txt}{c |} {res} .0023302  {txt}{c |} {res}-.0325461  {txt}{c |} {res}-.0598031  {txt}{c |} {res} 1.00025  {txt}{c |} {res}1.002069  {txt}{c |} {res}       0  {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 2}{c TT}{hline 8}{c BT}{hline 2}{c TT}{hline 9}{c BT}{hline 1}{c TT}{hline 10}{c BT}{c TT}{hline 11}{c +}{hline 11}{c +}{hline 11}{c +}{hline 11}{c RT}
     {c |} avg_def~2 {c |} avg_def~3 {c |} avg_ief~t {c |} avg_ief~1 {c |} avg_ief~2 {c |} avg_ief~3 {c |} avg_fef~t {c |} avg_hef~t {c |}
     {c |} {res}-.0015648 {txt}{c |} {res}-.0002541 {txt}{c |} {res}-.0882001 {txt}{c |} {res} .0023302 {txt}{c |} {res}-.0309813 {txt}{c |} {res} -.059549 {txt}{c |} {res}-.0018189 {txt}{c |} {res}-.0923492 {txt}{c |}
     {c BLC}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 11}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 11}{c TRC}
 42. {c |} lambda {c |} avg_te~t  {c |} avg_tef~1  {c |} avg_tef~2  {c |} avg_tef~3  {c |} avg_de~t  {c |} avg_de~0  {c |} avg_de~1  {c |}
     {c |} {res}    .2 {txt}{c |} {res}.8931381  {txt}{c |} {res} .0047198  {txt}{c |} {res} .0033986  {txt}{c |} {res}-.1144729  {txt}{c |} {res}.9991696  {txt}{c |} {res}.9994926  {txt}{c |} {res}       0  {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 2}{c TT}{hline 8}{c BT}{hline 2}{c TT}{hline 9}{c BT}{hline 1}{c TT}{hline 10}{c BT}{c TT}{hline 11}{c +}{hline 11}{c +}{hline 11}{c +}{hline 11}{c RT}
     {c |} avg_def~2 {c |} avg_def~3 {c |} avg_ief~t {c |} avg_ief~1 {c |} avg_ief~2 {c |} avg_ief~3 {c |} avg_fef~t {c |} avg_hef~t {c |}
     {c |} {res} .0001634 {txt}{c |} {res}-.0004864 {txt}{c |} {res}-.1060315 {txt}{c |} {res} .0047198 {txt}{c |} {res} .0032352 {txt}{c |} {res}-.1139865 {txt}{c |} {res} -.000323 {txt}{c |} {res}-.1110743 {txt}{c |}
     {c BLC}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 11}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 11}{c TRC}
 43. {c |} lambda {c |} avg_te~t  {c |} avg_tef~1  {c |} avg_tef~2  {c |} avg_tef~3  {c |} avg_de~t  {c |} avg_de~0  {c |} avg_de~1  {c |}
     {c |} {res}    .4 {txt}{c |} {res}1.089762  {txt}{c |} {res}-.0038321  {txt}{c |} {res}  .021217  {txt}{c |} {res} .0732701  {txt}{c |} {res}1.000439  {txt}{c |} {res}.9991074  {txt}{c |} {res}       0  {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 2}{c TT}{hline 8}{c BT}{hline 2}{c TT}{hline 9}{c BT}{hline 1}{c TT}{hline 10}{c BT}{c TT}{hline 11}{c +}{hline 11}{c +}{hline 11}{c +}{hline 11}{c RT}
     {c |} avg_def~2 {c |} avg_def~3 {c |} avg_ief~t {c |} avg_ief~1 {c |} avg_ief~2 {c |} avg_ief~3 {c |} avg_fef~t {c |} avg_hef~t {c |}
     {c |} {res} .0010201 {txt}{c |} {res} .0003113 {txt}{c |} {res} .0893235 {txt}{c |} {res}-.0038321 {txt}{c |} {res} .0201969 {txt}{c |} {res} .0729588 {txt}{c |} {res} .0013314 {txt}{c |} {res} .0944871 {txt}{c |}
     {c BLC}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 11}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 11}{c TRC}
 44. {c |} lambda {c |} avg_te~t  {c |} avg_tef~1  {c |} avg_tef~2  {c |} avg_tef~3  {c |} avg_de~t  {c |} avg_de~0  {c |} avg_de~1  {c |}
     {c |} {res}    .6 {txt}{c |} {res} .899174  {txt}{c |} {res} .0099016  {txt}{c |} {res} .0048542  {txt}{c |} {res}-.1153677  {txt}{c |} {res}.9995291  {txt}{c |} {res}.9997859  {txt}{c |} {res}       0  {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 2}{c TT}{hline 8}{c BT}{hline 2}{c TT}{hline 9}{c BT}{hline 1}{c TT}{hline 10}{c BT}{c TT}{hline 11}{c +}{hline 11}{c +}{hline 11}{c +}{hline 11}{c RT}
     {c |} avg_def~2 {c |} avg_def~3 {c |} avg_ief~t {c |} avg_ief~1 {c |} avg_ief~2 {c |} avg_ief~3 {c |} avg_fef~t {c |} avg_hef~t {c |}
     {c |} {res} .0002334 {txt}{c |} {res}-.0004902 {txt}{c |} {res} -.100355 {txt}{c |} {res} .0099016 {txt}{c |} {res} .0046209 {txt}{c |} {res}-.1148775 {txt}{c |} {res}-.0002568 {txt}{c |} {res}-.1105135 {txt}{c |}
     {c BLC}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BRC}

     {c TLC}{hline 8}{c TT}{hline 11}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 12}{c TT}{hline 11}{c TT}{hline 11}{c TT}{hline 11}{c TRC}
 45. {c |} lambda {c |} avg_te~t  {c |} avg_tef~1  {c |} avg_tef~2  {c |} avg_tef~3  {c |} avg_de~t  {c |} avg_de~0  {c |} avg_de~1  {c |}
     {c |} {res}    .8 {txt}{c |} {res}1.064355  {txt}{c |} {res}-.0052496  {txt}{c |} {res}-.0244039  {txt}{c |} {res} .0932748  {txt}{c |} {res} .999957  {txt}{c |} {res}1.000734  {txt}{c |} {res}       0  {txt}{c |}
     {c LT}{hline 8}{c BT}{hline 2}{c TT}{hline 8}{c BT}{hline 2}{c TT}{hline 9}{c BT}{hline 1}{c TT}{hline 10}{c BT}{c TT}{hline 11}{c +}{hline 11}{c +}{hline 11}{c +}{hline 11}{c RT}
     {c |} avg_def~2 {c |} avg_def~3 {c |} avg_ief~t {c |} avg_ief~1 {c |} avg_ief~2 {c |} avg_ief~3 {c |} avg_fef~t {c |} avg_hef~t {c |}
     {c |} {res}-.0011733 {txt}{c |} {res} .0003964 {txt}{c |} {res} .0643983 {txt}{c |} {res}-.0052496 {txt}{c |} {res}-.0232306 {txt}{c |} {res} .0928785 {txt}{c |} {res} -.000777 {txt}{c |} {res}  .068871 {txt}{c |}
     {c BLC}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BT}{hline 11}{c BRC}

{com}. 
. 
. ***************************** Higher-Order Effects *****************************
. 
. gen reject_feffect = 100 - rec_feffect
{txt}(18 missing values generated)

{com}. gen reject_heffect = 100 - rec_heffect
{txt}(18 missing values generated)

{com}. 
. *** False rejection rates for feedback effects:
. list model lambda reject_feffect avg_feffect if inlist(model, "SAR", "SLX2", "SLX3")
{txt}
     {c TLC}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c TRC}
     {c |} {res}model   lambda   reject..   avg_fef~t {txt}{c |}
     {c LT}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c RT}
 10. {c |} {res}  SAR      -.8   1.800003    .0022949 {txt}{c |}
 11. {c |} {res}  SAR      -.6   .5999985    .0017894 {txt}{c |}
 12. {c |} {res}  SAR      -.4   .1999969    .0013826 {txt}{c |}
 13. {c |} {res}  SAR      -.2   .1999969    .0011691 {txt}{c |}
 14. {c |} {res}  SAR        0          0    .0010738 {txt}{c |}
     {c LT}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c RT}
 15. {c |} {res}  SAR       .2          0     .001077 {txt}{c |}
 16. {c |} {res}  SAR       .4          0    .0012879 {txt}{c |}
 17. {c |} {res}  SAR       .6   .0999985    .0016098 {txt}{c |}
 18. {c |} {res}  SAR       .8   .3000031     .002053 {txt}{c |}
 28. {c |} {res} SLX2      -.8   5.599998   -.0010382 {txt}{c |}
     {c LT}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c RT}
 29. {c |} {res} SLX2      -.6          6   -.0007007 {txt}{c |}
 30. {c |} {res} SLX2      -.4   5.099998   -.0002119 {txt}{c |}
 31. {c |} {res} SLX2      -.2   5.400002   -.0005786 {txt}{c |}
 32. {c |} {res} SLX2        0          6   -.0015941 {txt}{c |}
 33. {c |} {res} SLX2       .2   5.300003    .0002248 {txt}{c |}
     {c LT}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c RT}
 34. {c |} {res} SLX2       .4   6.199997    .0009876 {txt}{c |}
 35. {c |} {res} SLX2       .6   6.099998    .0004322 {txt}{c |}
 36. {c |} {res} SLX2       .8   5.199997   -.0014618 {txt}{c |}
 37. {c |} {res} SLX3      -.8   2.599998   -.0015501 {txt}{c |}
 38. {c |} {res} SLX3      -.6   3.800003   -.0003371 {txt}{c |}
     {c LT}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c RT}
 39. {c |} {res} SLX3      -.4   4.099998   -.0002427 {txt}{c |}
 40. {c |} {res} SLX3      -.2        5.5   -.0003487 {txt}{c |}
 41. {c |} {res} SLX3        0   5.699997   -.0018189 {txt}{c |}
 42. {c |} {res} SLX3       .2   5.900002    -.000323 {txt}{c |}
 43. {c |} {res} SLX3       .4        7.5    .0013314 {txt}{c |}
     {c LT}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c RT}
 44. {c |} {res} SLX3       .6   8.400002   -.0002568 {txt}{c |}
 45. {c |} {res} SLX3       .8   8.699997    -.000777 {txt}{c |}
     {c BLC}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c BRC}

{com}. 
. *** False rejection rates for higher-order effects:
. list model lambda reject_heffect avg_heffect if inlist(model, "SAR", "SLX2", "SLX3")
{txt}
     {c TLC}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c TRC}
     {c |} {res}model   lambda   reject..   avg_hef~t {txt}{c |}
     {c LT}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c RT}
 10. {c |} {res}  SAR      -.8          6    .0373012 {txt}{c |}
 11. {c |} {res}  SAR      -.6   2.099998    .0301476 {txt}{c |}
 12. {c |} {res}  SAR      -.4   1.199997    .0244498 {txt}{c |}
 13. {c |} {res}  SAR      -.2   .3000031    .0228103 {txt}{c |}
 14. {c |} {res}  SAR        0          0    .0228758 {txt}{c |}
     {c LT}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c RT}
 15. {c |} {res}  SAR       .2          0    .0256346 {txt}{c |}
 16. {c |} {res}  SAR       .4          0    .0333823 {txt}{c |}
 17. {c |} {res}  SAR       .6          0    .0442519 {txt}{c |}
 18. {c |} {res}  SAR       .8          0    .0591873 {txt}{c |}
 28. {c |} {res} SLX2      -.8   5.599998   -.0215934 {txt}{c |}
     {c LT}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c RT}
 29. {c |} {res} SLX2      -.6          6   -.0145749 {txt}{c |}
 30. {c |} {res} SLX2      -.4   5.099998   -.0044081 {txt}{c |}
 31. {c |} {res} SLX2      -.2   5.400002   -.0120341 {txt}{c |}
 32. {c |} {res} SLX2        0          6   -.0331554 {txt}{c |}
 33. {c |} {res} SLX2       .2   5.300003    .0046747 {txt}{c |}
     {c LT}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c RT}
 34. {c |} {res} SLX2       .4   6.199997     .020541 {txt}{c |}
 35. {c |} {res} SLX2       .6   6.099998    .0089886 {txt}{c |}
 36. {c |} {res} SLX2       .8   5.199997   -.0304051 {txt}{c |}
 37. {c |} {res} SLX3      -.8   4.300003   -.1434193 {txt}{c |}
 38. {c |} {res} SLX3      -.6   4.699997    .0775057 {txt}{c |}
     {c LT}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c RT}
 39. {c |} {res} SLX3      -.4   4.400002   -.0126787 {txt}{c |}
 40. {c |} {res} SLX3      -.2        5.5    .0440717 {txt}{c |}
 41. {c |} {res} SLX3        0   4.599998   -.0923492 {txt}{c |}
 42. {c |} {res} SLX3       .2          6   -.1110743 {txt}{c |}
 43. {c |} {res} SLX3       .4   5.900002    .0944871 {txt}{c |}
     {c LT}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c RT}
 44. {c |} {res} SLX3       .6   6.599998   -.1105135 {txt}{c |}
 45. {c |} {res} SLX3       .8   6.699997     .068871 {txt}{c |}
     {c BLC}{hline 7}{c -}{hline 8}{c -}{hline 10}{c -}{hline 11}{c BRC}

{com}. 
. log close
      {txt}name:  {res}<unnamed>
       {txt}log:  {res}C:\Users\williamslaro\Documents\Research\Projects\Spatial Methods\Spatial-X\Journal of Politics\Replication\Experiments\Analyze\SEM\Analyze SEM Monte Carlo Experiments.smcl
  {txt}log type:  {res}smcl
 {txt}closed on:  {res} 5 Sep 2019, 10:54:06
{txt}{.-}
{smcl}
{txt}{sf}{ul off}